WO2010148723A1 - Telnet method for external terminal and master device, slave device thereof - Google Patents

Abstract

A telnet method for external terminal and a master device, a slave device thereof are provided in the invention. The method comprises: the master device links with the slave device in a non transmission control protocol (TCP) manner, and when communicating through a non-TCP channel, the master device or the slave device encapsulates the TCP-formatted data which is used for the telnet of external terminal to the slave device in a non-TCP channel packet and sends the packet to the opposite party, which thereby enables the external terminal telnet to the slave device. With the invention, when the master device links with the slave device in the non-TCP/IP manner, the external terminal can directly telnet, in a manner of the master device agent, to the slave device through the master device, and perform necessary configuration on the slave device, especially when the slave device has numerous ports of various types, the external terminal can perform necessary configuration on the numerous ports of the slave device.

Description

 External terminal mercury method, each and

Wood field

 This is in the field of communications, especially in relation to external terminal mercury methods, each. Background

 Te e is included in the control / special (Ta smsso Co o ooco / e e Pooco, TCP / P), which is the main and main mode of e e (special) mercury. Te e refers to the unified terminal used by local users. The terminal is not intelligent, and only the user's character is responsible for the information on the screen. T T uses the customer/mode (e / e Ve mode), that is, the customer receives each of them, provides each phase, and connects (Socke). Pick up the customer - each mode, each return to monitoring. Occupy all needs, only customers, each end of the connection. Each client's connection is established and provided to the customer. From the above, the socke mode is easy to operate, and the (c e ) kimono (e Ve ) program provides different socke systems, so it is the e e method most used.

 However, Te e wood and socke are both in TCP/P. The mode in which the communication and the communication are determined determines that most of the currently used communication is not connected to each other, or even It is already in the whole P, but because each function, and each determines the same connection, the method is not etheric, and some of the connection methods are mostly in the middle and the upper, and the high-speed communication (W) and mode are the most typical.

Closer look at the coffin, (assve Op ca ewok, PO) got it. , terminal (p ca e Tem a, OT) force each, sheep O (Op ca ewok, O) or multi-domestic sheep (pe we g, ) are each. It can be a small family, it can be an eda Se Ve s Access Gaeway (AG), or it can be a small user interface (ga S bsc be eAccess pexe, A4) O JJ interface 矣 and Less, like 4 or ether. J's interface is more and more, may include hundred A, one hundred V, one hundred POT and so on. In the case of OJ, it is equal, but it is larger than OJ. Existing wood, OTOJ configuration wood has matured, but look at the home or the TT to the way, OTOJ configuration can not meet the OT configuration requirements, OT process management, and some law management Special configuration.

 Normally, if each connection supports the TCP/P mode, each e e is connected to the se Ve-socke on each of the main c e -socke. However, there are many cases in which each is in p, but the state is not in the etheric mode. Often, the socke of each c e-socke is connected, that is, each e e mercury is configured.

 Then, each connection does not support the TCP/P mode. If you want to configure each, you can't use the ee mode. You must parse the command lines on the main commands, and the commands are parsed and parsed. The original ee command parsing method, another set of command parsing methods. The command sets on the above are all relatively large, and the commands are parsed. The project is very similar. If any command is repaired, the interface of each command must be modified. If the versions are not correct, the probability probability of each meta-analysis command appears. Very large, so the method is too complex, not scalable. There is currently no better solution to the situation in God. Content

The wood to be solved is to provide an external terminal mercury method, each of which is a non-TCP/P connection mode, so that the external terminals can directly direct mercury to each of the required configurations. In order to solve the problem, the present invention provides an external terminal mercury method, including the main and the non-controlled manner, the non-control channel communication, each or each external terminal in the mercury control format packaged in the non-control channel teaching Towards, while the external terminal is mercury.

 The method has the following characteristics

 Each step of each external terminal receives the configuration command of each configuration, and encapsulates the configuration command in the non-control channel teaching

 Each step of each parsing Executes the configuration command, and the configuration command execution result is in the control format.

 The method includes nearly all the access to the external terminal.

 The method has the following characteristics

 The external terminal establishes the connection force

 The external terminal sends a mercury command to each mercury request, and each agent mode encapsulates the mercury command in the non-control channel.

 Each of the received mercury commands the proxy client to each of the connected clients, and each of the proxy clients is connected to the external terminal, and the mercury command and the connection establishment information are in a control format.

 The method has the following characteristics

 Each analysis executes the configuration command

The proxy client parses out the configured commands and sends them to each of the execution configuration commands, and returns the execution result to the proxy client. The method has the following characteristics

 External terminal

Each command is encapsulated in a non-control channel

 Each receives the parsing execution command, and the proxy client connects each other, and encapsulates the information in the non-control channel.

 Each access to an external terminal, commands and information are in control format.

 The method has the following characteristics

 Each is the optical terminal of the system, each of which is a multi-household sheep in the system, and a non-control channel high control channel. In the solution, the external terminal provides mercury for each terminal, and each communication encapsulates the external terminal in the control format of the mercury in the non-control channel teaching to each of the external terminals in the control format of each mercury.

 And support external terminals for mercury.

 Each has the following special

The external terminal receives the configuration command for each configuration, and the configuration command receives the configuration command by each parsing, and is encapsulated in the non-control The execution result of the channel configuration is sent to each execution result. The execution result of the configuration command is controlled.

 The received execution result is passed to the external terminal.

 Each has the following special

 Receiving the requirements of the external terminal, the mercury command of each mercury, the proxy mode receives the connection establishment information encapsulated in the non-control channel, and the mercury command and connection establishment information are in the control format.

 Receive the connection establishment information to the external terminal.

 Each has the following special

Receive the request from the external terminal to quit each command, will

 The information commands and information are in control format ;

 Received information to external terminal

 Each is the optical terminal of the system, each of which is a multi-household sheep in the system, and a non-control channel high control channel.

The external terminal mercury is provided, each of which is connected to the non-control channel in a non-control manner, and the external terminal is packaged in the control format of the mercury in the non-control channel.

Receiving each package in a non-control channel The external terminal in the control format of each mercury

 And support external terminals for mercury.

 Nearly configured commands encapsulated in non-control channel teaching

 Analyze and execute each configuration command, and package the execution result in the non-control channel teaching to send to each configuration command. The execution result is in the control format.

 Each

 Each of the nearly received mercury commands for each package, the agent customer to each of the mercury orders received by each of the external terminals required by the mercury command, the proxy mode to encapsulate the mercury command in the non-control channel teaching

 Each of the proxy clients that establish the proxy client encapsulates the setup information in the non-control channel, and the mercury command and connection establishment information is in the control format.

 Nearly, the commands encapsulated in the non-control channel teach

 Analyze the execution command, proxy each client's connection, encapsulate the information in the non-control channel teaching

 Commands and information are in control format.

 The proxy client parses the configured commands and sends them to each of the respective execution configuration commands to return to the proxy client.

Each is the optical terminal of the system, each is Multiple households in the system, each with a high control channel.

This uses the main non-TCP channels, each of which requires external commands for each of the external, each received, locally established customer agent

 Each C T is connected, each configuration, does not parse the command, and directly assigns each character to the proxy client. Each proxy client is connected to the terminal, and each connection is configured with the terminal direct ee mercury command, so each original command resolution can be utilized. The method only needs to parse the general commands, and does not depend on each command set. It does not depend on each method, and has small compatibility, scalability, low cost, and can be more.

 The method of the present invention is a non-TCP/P connection mode, and each of the external terminals can directly direct mercury to each other in the manner of each agent.

The required configuration, especially in each of the different types, can be used in this typical PO system, compared to the existing OT process management O-mode OJ configuration method, this is the OT force agent, Make the terminal ee to OJ on the OJ configuration, this direct OT proxy mercury to the configuration method.

1 is the intermediate and external terminal mercury

 2 is the method flow of the intermediate and external terminal mercury. The preferred way of this

As shown in Fig. 1, the external terminal mercury system includes external terminals, each, each, and each communicates with the non-control channel in an uncontrolled manner. Communication (w) E and other more integrated methods. Each and each non-control channel can be a high-control (g - eve a Co o, C) channel or other non-control channel.

 Each can be a light terminal in the system, each of which can be a multi-resident sheep in the system.

 Each of the external terminals in the control format of the mercury is packaged in the non-control channel, and the external terminal receives the configuration command for each configuration, and encapsulates the configuration command in the non-control channel. The received execution result is passed to the external terminal.

 Each of the external terminals establishes a mercury command for each of the external terminals that requires mercury. The proxy mode encapsulates the mercury command in the non-control channel, and sends the information to the external terminal upon receipt.

 The external terminal and each of the received external terminals request to exit each command, and the command is encapsulated in the non-control channel to teach each, and the received information is passed to the external terminal.

 Each of the external terminals in the control format of the mercury is packaged in the non-control channel teaching, and the received configuration commands are parsed and executed, and the execution result is encapsulated in the non-control channel teaching and sent to each.

 Each of the external terminals establishes a respective mercury receiving command, and the proxy client establishes a proxy client connection to each of the connected terminals, executes a configuration command, and returns the execution result to the proxy client, and the proxy client encapsulates the connection establishment information in the non-client. The control channel teaches each of the near-parsed configuration commands to be sent to each.

In the external terminal and each of the parsing execution commands, the proxy client is connected to each other, and the information is encapsulated in the non- The channel teaches each.

 The external terminals are connected to each other by TCP/P, and the proxy clients and each device in each are also connected to TCP/P. The configuration commands, execution results, mercury commands, connection establishment information, commands, and information on the external terminal and the same, or on behalf of the client and each device, are in TCP/P format. 2, the external terminal mercury, each and each of the non-control channel connected to the non-control channel communication each or each of the external terminals in the control format of the mercury packaged in the non-control channel. Hugh includes the following

 Step 201: The establishment of the external terminal and the connection includes the following steps: Step 2011, the external terminal e e mercury, each establishes an OC T connection, and the external terminal requests the mercury for each mercury.

 In step 2012, each proxy mode (poxy mod) parses the command in the execution command xcmd_pocess, encapsulates the mercury command in the C channel teaching, and encapsulates the mercury command in C (A q ), channel message (Ce Cha e Re ) sent to each, the message near the external terminal (pc eece), the terminal phase, moved to the (o ec) step 2013, each received the message, the agent customer, the terminal (ceece) proxy customer Poxy ced) Under mercury, it seems to be connected to each other (internal addresses and conventions).

Step 2014, each connection to the proxy client establishes an OC T connection of the proxy client, and establishes information to the proxy client. In this message, the near external terminal (ceece) step 2015, the proxy client encapsulates the setup information in the C channel. In each case, the connection establishment information is encapsulated in C. ( ).

 In step 2016, each of the received connection establishment information is moved to (c v ) and each connection is established.

 In step 2017, each OC T connection of the external terminal is used to connect each connection establishment information to the external terminal, and the information interface is connected to the external terminal to establish the same connection of the external terminal.

Step 202, each of the acting agents, and the external terminal mercury each configured to include the following steps

 In step 2021, a command is configured on the mercury interface of the external terminal, and the configuration command sent by the external terminal is sent to each.

 Step 2022, each pre-agent mode is, and will receive the configuration command (may be in the form of characters) C ( ) each message external terminal (pc eece) step 2023, each proxy client parses out the external terminal, finds the proxy client, C Parse the configuration command and take out the configuration command characters.

 The OC T is sent to each and each execution configuration command to return the execution result to the proxy client.

 Step 2024, each proxy client encapsulates the execution result in C, and sends the message to the external terminal (ceece). Step 2025, each receives the message, and the external terminal is parsed in the message, and the execution result is parsed in the message, and the result will be executed. The OC T is connected to the external terminal, and the content of the execution result is on the external terminal.

In step 203, the external terminals are connected. Hugh includes the following steps

 In step 2031, the external terminal requests each of the commands to exit.

In step 2032, each command is encapsulated in C to each. In step 2033, each agent client C parses the command, and sends the OC T to each of the respective proxy clients.

 Information The client client's connection.

 In step 2034, the proxy client receives the information, and encapsulates the information in the C channel teaching to each of the same proxy clients.

 In step 2035, each of the messages is received, and the agent mode is exited, and the work is moved to the external terminal.

 In addition to the usual one shown in step 203 above, it may appear near, and each receives an indication from the bottom friend. Each receiving the bottom message, each connection, exiting the proxy mode, each receiving the bottom message, each connection, then the agent customer.

 The method of the present invention is a non-TCP/P connection mode, and each of the external terminals can directly direct mercury to each other in the manner of each agent.

The required configuration, especially in each of the different types, can be used in this typical PO system, compared to the existing OT process management O mode O configuration method, this is the OT force agent, so that Terminal ee to O is configured on the O, this direct OT proxy mercury to the configuration method.

 However, there are many other methods in the near future. In the absence of this spirit and its circumstances, the field can be used to make the sum of the phases, but the usability.

 In this method, each of the masters is a non-TCP/P connection method, and each of the external terminals can directly direct mercury to each other in a manner of each agent. Each of the required configurations, especially in each of the different types, can be used. The various methods of the various configurations are required.

Claims

 Requirements 1. External terminal mercury method, which includes

 The masters and the slaves establish non-controlled channels, non-control channel communications, and each or each external terminal is encapsulated in a control format of mercury in a non-control channel.

 , while the external terminal is mercury.

2. The method of claim 1, which

 Each step of each external terminal receives the configuration command of each configuration, and encapsulates the configuration command in the non-control channel teaching

 Each step of each analysis executes the configuration command, and the execution result is encapsulated in the non-control channel teaching and sent to each

 Configuration command execution results are in control format

 The method includes nearly all the access to the external terminal.

 3. The method of request 2, the external terminal establishes the connection force

 The external terminal provides the mercury command for each mercury, and connects each of them to establish a proxy client connection. The connection establishment information is encapsulated in the non-control channel to each, and each to the external terminal. The mercury command and connection establishment information are controlled. Formatted.

4. The method of claim 3,

 Each analysis executes the configuration command

, Each execution configuration command returns the execution result.

 5. The method of claim 3, which includes

The external terminals are connected

 Each

 Each receives the parsing execution command, and the proxy client connects each other, and encapsulates the information in the non-control channel.

 Each access to an external terminal, commands and information are in control format.

6. The method of claim 1, which

 Each is a light terminal in the same system, each of which is a multi-household sheep in the system, and a non-control channel high control channel.

7. External terminals, each of the mercury, each of which

 Each of the uncontrolled channels is connected to the non-control channel, and the external terminals are packaged in the control format of the mercury in the non-control channel.

 Received by the various packages of the non-control channel taught to support external terminal mercury.

 8. Each of the requirements 7

 The external terminal receives the configuration commands for each configuration, and sets the configuration commands to the non-control channel.

The execution execution configuration command sent by each parsing is encapsulated in the non-control channel teaching and sent to each execution result configuration command execution result. Control format

 The received execution result is passed to the external terminal.

 9. Each of the requirements 8

Received external mercury requirements for mercury in each terminal, proxy mode

 In the middle of establishing information, the mercury command and the connection establishment information are in the control format.

 Receive the connection establishment information to the external terminal.

10. Each of the requirements 9

Receive the request from the external terminal to quit each command, and package the command in the non-control channel to teach each

of ;

 Information to external terminal

 Each is the optical terminal of the system, each of which is a multi-household sheep in the system, and a non-control channel high control channel.

 11. The external terminal mercury, each of which is externally terminated in the control format of the mercury, encapsulated in the non-control channel, and the external terminal is controlled by the mercury in each control format.

 And support external terminals for mercury.

12. Each of the requirements of 11, each of which is near Configuration command encapsulated in non-control channel teaching

 Parsing and executing each configuration command, encapsulating the execution result in the non-control channel teaching and sending it to each configuration command. The execution result is in the service control format.

13. Each of the requirements of claim 12, each

 Each of the near-received mercury commands of each package, the agent customer to each of the mercury-receiving commands received by each of the external terminals of the mercury command, the proxy mode to encapsulate the mercury in the non-control channel

 Each of the proxy clients that establish the proxy client encapsulates the setup information in the non-control channel, and the mercury command and connection establishment information is in the control format.

14. The commands described in Requirement 13, each of which is encapsulated in a non-control channel.

 Parsing the execution command, each connection, encapsulating the information in the non-control channel

 Commands and information are in control format.

15. Each of the requirements of claim 13,

 The proxy client parses the configured commands and sends them to each of the respective execution configuration commands to return the results to the proxy client.

 Each is a light terminal in the same system, each of which is a multi-resident sheep in the system, and the non-control channel is high.

Control channel.