KR100293993B1 - Method for interfacing protocol in broadband terminal adater - Google Patents

Abstract

PURPOSE: A protocol interface method for a B-TA(Broadband Terminal Adaptor) is provided to perform a communication with the B-TA using a CLNAP(Connection Less Network Access Protocol) and ATM(Asynchronous Transfer Mode) terminals using an IPOA(IP over ATM). CONSTITUTION: A B-TA performs a routing work for determining whether a transmitting message is a message to be transmitted to an other interface device(620). If the message is transmitted to an other B-TA, the B-TA retrieves a PVC(Permanent Virtual Connection) table and searches connection setting information(640). If a PVC exists, a message format is generated to be suitable for a protocol used in a corresponding PVC(660-690).

Description

Protocol matching method in broadband matching device {METHOD FOR INTERFACING PROTOCOL IN BROADBAND TERMINAL ADATER}

The present invention relates to a broadband matching device interconnected via a broadband integrated information network (B-ISDN), and more particularly to a protocol communication method performed between broadband matching devices.

Broadband Integrated Service Digital Networks (hereinafter referred to as "B-ISDNs") are typically video, high-definition television in addition to voice, data, and video serviced through the Public Switched Telephony Network (PSTN). It refers to a communication network that integrates and supports various broadband services by transmitting a large amount of data at high speed such as (HDTV) and multimedia data. On the other hand, a broadband terminal adapter (hereinafter referred to as "B-TA") is a device for connecting a narrowband communication device corresponding to a conventional non-wideband communication device to the B-ISDN. By using the B-TA, the conventional voice or data can be transmitted via a high-speed B-ISDN. For example, high-speed data transmission between a local area network (LAN) located in a distant area may be used.

The exchange method for broadband communication of the B-ISDN uses an Asynchronous Trasfer Mode (ATM) method. That is, the B-ISDN based on the ATM scheme is a connection-oriented network for transmitting data after first establishing a connection with a counterpart communication terminal. In contrast, a LAN is a connection-less network, which transmits LAN data without establishing a connection in advance. Therefore, a method for transmitting connectionless data in a B-ISDN network, which is a connection-oriented communication network, is required. The proposed methods are IP over ATM (hereinafter referred to as "IPOA") and a connectionless network access protocol. (Connection Less Network Access Protocol, hereinafter referred to as "CLNAP").

1 is a diagram illustrating a typical network for transmitting connectionless data over an ATM network. Referring to FIG. 1, broadband matching devices (B-TA: ATM terminals) 110a, 110b, and 110c are terminated between ATM terminals 110a, 110b, and 110c to be connected by using the connected mode of the ATM network. An end-to-end virtual line is connected (VC), and a connectionless message is transmitted through the line. In addition, the ATM network merely provides a transparent virtual connection between ATM terminals 110a, 110b, and 110c. The above method is a method that can effectively transmit connectionless data when the number of terminals connected to the ATM network is not large, and can be easily implemented in an early stage when the B-ISDN service is not in full swing. The B-TAs 110a and 110b110c are connected to a counterpart B-TA in a one-to-one permanent virtual connection (PVC) (PVC1, PVC2, and PVC3), and the network 100 simply provides a path. Therefore, when the communication protocol is agreed between the B_TA at both ends, communication of the connectionless data through the B_ISDN network 100 is enabled, and the ATM terminals 110a, 110b, and 110c of the B-TA are used to transmit the connectionless data. Representative protocols are CLNAP and IPOA, described above.

The IPOA is a protocol for delivering IP data through an ATM network, and transmits encapsulated IP data to LLC / SNAP through one VC set between B-TAs 110a, 110b, and 110c. Each of the B-TAs 110a, 110b, and 110c is interconnected by PVC, and processes only the AAL5 type message of the AAL layer. When the IPOA is used, the data of the AAL layer is in the form of "LLC / SNAP header + IP packet".

The CLNAP is a method used in a conventional LAN B-TA and is a protocol established for transmitting various connectionless data in an ATM network. Each B-TA (110a, 110b, 110c) is interconnected by PVC, and processes only messages of AAL3 / 4 and AAL5 types of AAL layer. As the data of the CLNAP protocol, only unconnected data currently encapsulated in LLC / SNAP is defined. Therefore, the data of the AAL layer in the case of using the CLNAP protocol is in the form of "CLNAP header + LLC / SNAP header + connectionless data packet".

As shown in FIG. 1, the conventional B-TA 110 illustrated in FIG. 1 may include a packet processor 112, a controller 111, a memory 113, a plurality of network interface 114, and the like. It consists of. Referring to FIG. 2, the network interface unit 114 includes a plurality of 114-1 to 114-n, and transmits and receives data from the Ethernet or B-ISDN network 100. The memory unit 113 stores the messages received from the plurality of network interface units 114 until the packet processing unit 112 processes them. It also stores various tables needed to process messages. The controller 111 controls the access to the memory 113 and the usage authority of the bus. The packet processing unit 112 interprets the protocols of the messages received by the plurality of network interface units 114, performs routing to determine a network to which the message is to be transmitted, and generates a message according to the transmitting network interface. It serves to handle.

3 is a control flowchart for performing a procedure of transmitting a message from the B-TA 110 to the B-ISDN network 100 in a conventional manner. Referring to FIG. 3, in step 310, the B-TA 110 determines whether a message to be transmitted exists. If it is determined in step 310 that the message exists, the B-TA 110 proceeds to step 320. In step 320, a routing operation for determining where to send the message to be transmitted is performed. That is, it is determined whether to send the message to another B-TA connected to the B-ISDN 100 or to another router or host not connected to the B-ISDN 100. If it is determined in step 320 that the place to send the routing message is not another B-TA in which the PVC is set, that is, it is determined that the message is sent to another router or host not connected to the B-ISDN network 100, the flow proceeds to step 330. . If the B-TA 110 proceeds to step 330, it transmits data in accordance with the corresponding network interface unit 114. Otherwise, if the message is sent to another B-TA, the B-TA 110 proceeds to step 340 and searches the PVC table to find connection setting information to transmit the message to another B-TA. Each of the B-TAs 110a, 110b, and 110c manages a PVC table for storing connection information with other B-TAs connected to the PVC in the memory unit 113. Table 1 shown below shows an example of the PVC table of the B-TA (110a) in the network configuration shown in FIG.

Partner Matching Device VPI / VCI Value AAL form B-TA2 VPI ₂ / VCI ₂ AAL 3/4 B-TA3 VPI ₃ / VCI ₃ AAL 5

In the PVC table of the B-TA (110a) shown as an example in Table 1, the B-TA (110a) is a VPI value of VPI ₂ , VCI value of VCI ₂ is set to the PVC connection with the B-TA (110b) It indicates that the AAL 3/4 data is transmitted through the established PVC connection. If the B-TA 110a performs the step 340 and the connection setting information with the corresponding B-TA is not in the PVC table as shown in Table 1, the process proceeds to step 350 and discards the message to be transmitted. Report an error condition. However, if the B-TA and the PVC connection is established, the B-TA 110a proceeds to step 360 and the VPI / VCI value of the corresponding B-TA through the PVC table as shown in Table 1 as an example. And generates a message according to the AAL type value, and transmits the generated message to the corresponding B-TA through the B-ISDN network 100.

In response to this, when the conventional B-TA 110 receives a message through the B-ISDN network 100, a procedure of processing the received message is performed according to the control flowchart shown in FIG. Referring to FIG. 4, the B-TA 110 detects reception of a message in step 410 and proceeds to step 420. In step 420, the B-TA 110 checks whether the format of the received message is generated by the same protocol as the protocol it supports. If it is determined that the format of the received message is generated by a protocol that is not the same as the supported protocol, the flow proceeds to step 430. In step 430, the B-TA 110 discards the received message and reports an error condition. However, if it is determined that the format of the received message is generated by the same protocol as the protocol supported by the received message, the received message is transmitted to the corresponding message processor.

As mentioned earlier, with the establishment of ATM technology, ATM terminals that transmit connectionless data through ATM LAN, along with broadband matching devices that transmit connectionless data between distant LANs through B-ISDN network, are beginning to emerge. Most of these ATM terminals use the IPOA protocol, whereas the conventional broadband matching devices support only the CLNAP protocol when transmitting the connectionless data through the B-ISDN network. Therefore, communication with other matching devices supporting the CLNAP protocol was possible, but communication with other ATM terminals supporting the IPOA protocol did not occur. In other words, different protocols are used between devices exchanging connectionless data through a B-ISDN network using a permanent virtual line. Thus, communication between a conventional broadband matching device and an ATM terminal has not occurred.

Therefore, an object of the present invention for solving the above problems is a protocol capable of both communication with the broadband matching device using the connectionless network access protocol (CLNAP) and the ATM terminals using IPOA (IPOA) To provide a communication method.

In order to achieve the above object, a method of matching different protocols in a broadband matching device interconnected through a broadband integrated information communication network, when there is a message to be transmitted to another broadband matching device, provides a permanent virtual line to the other broadband matching device. Determining whether (PVC) is set through the permanent virtual line table, checking the protocol used by the other broadband matching device through the permanent virtual line table if the permanent virtual line is set, and If the protocol used is a connectionless network access protocol (CLNAP), the header and the LC / SNA header according to the connectionless network access protocol are configured, and the A / B according to the VPI / VCAI value and the ALA type value. Configure the above by configuring the message When the protocol is transmitted to the other broadband matching device with the completed header, and the protocol used is IP over AMO protocol (IPOA), the LC / SNA header is configured, and the VPIA / VCI value is determined. And constructing an A-L message according to an A-L type value and transmitting the A-EL message to the other broadband matching device together with the configured header.

1 is a diagram illustrating an interconnection network configuration of a broadband matching device through a conventional broadband general information network;

2 is a block diagram of a conventional broadband matching device.

3 is a control flowchart for processing a transmission message in a conventional broadband matching device.

4 is a control flowchart for processing a received message in a conventional broadband matching device.

5 is a control flowchart for processing a transmission message in a broadband matching device according to an embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. First, in adding reference numerals to the components of each drawing, it should be noted that the same reference numerals are used for the same components, even if displayed on different drawings. In describing the present invention, when it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

A process for processing a transmission message in a broadband matching device according to an embodiment of the present invention is performed according to the control flowchart shown in FIG. 5. Referring to FIG. 5, when a message sent to a matching device in which a VPI / VCI exists in a PVC table occurs, a header is generated according to a corresponding protocol registered in the PVC table to transmit the message.

Hereinafter, a preferred embodiment of the present invention will be described in detail with reference to the control flowchart of FIG. 5.

In step 610, the B-TA 110 determines whether a message to be transmitted exists. If it is determined in step 610 that the message exists, the B-TA 110 proceeds to step 620. In step 620, a routing operation for determining where to send the message to be transmitted is performed. If the routing result message is sent to another B-TA in which the PVC is set in step 620, that is, it is determined that the message is sent to another router or host that is not connected to the B-ISDN network 100, the flow proceeds to step 630. do. In step 630, the B-TA 110 transmits data in accordance with the corresponding network interface unit 114. Otherwise, if the B-TA is another place to send a message, the B-TA 110 proceeds to step 640 to search the PVC table to find connection setting information. At this time, in the present invention that supports two protocols at the same time to configure the PVC table as shown in Table 2 below to distinguish the protocol used in each PVC connection.

Counterpart matching device VPI / VCI Value AAL form protocol TA 1 VPI ₁ / VCI ₁ AAL 3/4 CLNAP TA 2 VPI ₂ / VCI ₂ AAL 5 CLNAP TA 3 VPI ₃ / VCI ₃ AAL 5 IPOA

As shown in Table 2, a protocol area was placed on the PVC table according to the present invention, so that the protocol used for the PVC connection could be known.

In step 640, if the PVC table having the configuration as shown in Table 2 shown in the example is found, and there is no PVC connection, the process proceeds to step 650 to discard the message and report an error condition as in the prior art.

However, if it is determined in step 640 that there is a PVC connection, a message format is generated according to the protocol used in the PVC connection in steps 660 to 690. In this case, the format generated by each protocol is as follows. First, in the case of IPOA, the format consists of "LLC / SNAP header + connectionless data (IP packet)", and in the case of CLNAP, the format consists of "CLNAP header + LLC / SNAP header + connectionless data". In the format configured according to the above protocols, "LLC / SNAP header + connectionless data" is commonly used in all protocols, and it can be seen that "CLNAP header" is added only in the case of CLNAP.

Therefore, if it is determined in step 660 that the protocol to be used is CLNAP, the B-TA 110 proceeds to step 670 to create a "CLNAP header". On the other hand, if it is determined that the protocol to be used in step 660 is IPOA or the creation of the "CLNAP header" is completed in step 670, the B-TA 110 proceeds to step 680. In step 680, " LLC / SNAP header " and " connectionless data " If the message format corresponding to the protocol to be performed in steps 670 to 680 is created, the B-TA 110 proceeds to step 690. In step 690, an AAL message is created according to the VPI / VCI value and AAL type of the PVC connection and transmitted along with the created header.

Meanwhile, since the B-TA 110 transmits the message format according to a protocol desired by the receiving B-TA through the above-described process, the receiving B-TA may receive the message through the same process as before. Therefore, since the operation of the receiving side B-TA is the same as the conventional operation described above, a detailed description thereof will be omitted.

As described above, the present invention configures the message format according to the protocol to enable communication between the broadband matching device using the connectionless network access protocol (CLNAP) and the ATM terminals using IPOA (IPOA). In this case, a more efficient broadband matching device can be provided.

Claims (1)

A method of matching different protocols in a broadband matching device interconnected through a broadband integrated information network, Determining whether a permanent virtual line (PVC) is set to the other broadband matching device when there is a message to be transmitted to another broadband matching device through a permanent virtual line table; If the permanent virtual line is set, inspecting a protocol used by the other broadband matching device through the permanent virtual line table; If the protocol used is a connectionless network access protocol (CLNAP), the header according to the connectionless network access protocol and L / S / NA header are configured, and the A according to the VPI / VCAI value and the ALA type value. Constructing an AEL message and transmitting it to the other broadband matching device together with the configured header; If the protocol used is IP over APM protocol (IPOA), the L / S / NA header is configured, and the AV message according to the VPI / VCAI value and the ALA type value is configured to complete the configuration. The protocol matching method in a broadband matching device comprising the step of transmitting to the other broadband matching device with a header.

Images