KR20030020577A - User Data Delivery Method Of SCTP - Google Patents

Abstract

PURPOSE: A method for transferring user data of an SCTP(Stream Control Transmission Protocol) is provided to improve the performance of system by transferring the user data to an upper layer protocol when the user data is received from a remote SCTP. CONSTITUTION: An end SCTP receives data chunk containing user data from a remote SCTP(S61). The end SCTP determines whether or not the existence of an upper layer protocol to which the user data has to be transferred(S62). If the upper layer protocol does not exist, the end SCTP discards a data chunk received from the remote SCTP(S68), and, otherwise, it checks a stream ID(IDentifier) field and a stream sequence number field to determine whether or not the data chunk is valid(S63). If the data chunk is invalid, the end SCTP discards the data chunk and generates an error chunk to notify the same to the remote SCTP(S69). The end SCTP determines whether or not the user data contained in the data chunk is divided(S64). If the user data is not divided, the user data is transferred to the upper layer protocol(S67), and, otherwise, the end SCTP re-assembles the divided user data(S65). Upon completing the re-assemble operation(S66), the end SCTP transfers the re-assembled user data to the upper layer protocol(S67).

Description

User Data Delivery Method Of SCTP}

The present invention relates to a data transmission method of the SCTP (Stream Control Transmission Protocol), in particular, a user data delivery method of SCTP that can deliver the user data received through the data chunk from the SCTP to the higher layer protocol more quickly and efficiently It is about.

In general, No.7 signaling has been mainly used as a signaling system for telephone networks, such as intelligent network service or inter-station signaling system. Recently, with the development of mobile communication service, mobile switching system, subscriber information system, short message system ( It is used as interworking standard between various systems such as SMS) and Unified Messaging System (UMS).

In addition, with the rapid development of Voice over Internet Protocol (VoIP) technology that enables voice service using the existing Internet, a new signaling method based on the existing No.7 signaling method is required for interworking between the Internet and the telephone network. For example, the Internet Engineering Task Force (IETF), an Internet technology standardization organization, proposed a new signaling method based on the No.7 signaling method in the Internet Protocol (IP) network called Signaling Transport Working Group (SIGTRAN). Doing.

As shown in FIG. 1, the protocol layer structure of the Sigtran signaling method includes a physical layer (PHY) that matches an actual transmission line at the lowest level, an IP layer for accessing the Internet, and an SCTP (Stream Control). Transmission Protocol (RFC 2960) layer and an upper layer protocol (ULP) layer operating as an SCTP user at the upper layer, where SCTP is a reliable IP signal network signal received from No.7 signaling network Transport layer protocol used to ensure reliable delivery.

In the Sigtran signaling method, messages sent and received between SCTPs of the power are composed of logical messages called chunks, and SCTP packets transmitted at one time are composed of a plurality of chunks. It is a unit of information with a certain meaning and consists of a header and contents defined differently according to the header.

In addition, the types of chunks used in the SCTP can be divided into control chunks and data chunks, as shown in FIG. 2. The control chunks are used to process management functions of various SCTP protocols including connection establishment. The data chunk is used to forward data transmission requests from upper SCTP users belonging to the upper layer protocol to the large station, and when the data chunk to be transmitted to the upper layer protocol is received from the large SCTP, the conventional chtp is changed to the upper layer protocol. The data transfer is performed through three steps of operation.

That is, as shown in FIG. 3, when the conventional SCTP receives user data to be transmitted from the super SCTP to the upper layer protocol through the data chunk, the SCTP first notifies the upper layer protocol of the arrival of the user data (1). Step), when the upper layer protocol notifies itself that it is ready to receive data (step 2), it passes the user data received through the data chunk from the actual power SCTP to the higher layer protocol (step 3). This completes the data transfer.

In this case, primitives used to deliver user data from the upper layer protocol to the upper layer protocol, contents of the primitives, and the transfer factors may be defined as shown in Table 1 below.

Primitive Contents Parameter Data arrival notice Notify when data (packets) have been successfully received and delivered to a higher level [Connection ID], [Stream ID] Ready to receive notification The upper layer protocol delivers a buffer location that SCTP can receive to receive the received data. Connection setup ID, buffer address, buffer size, [stream ID] Actual data passing Store the data received from the power SCTP in the location specified by the upper layer protocol. Data length, [address], [stream ID], [stream sequence number]

Therefore, in the conventional SCTP, the user data is transferred from the upper layer protocol to the upper layer protocol. Instead, the user data is not immediately delivered to the upper layer protocol, and only the data arrival is notified to the upper layer protocol. Transmission to higher protocols causes transmission delays in data delivery, which can lead to lower overall system performance.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and an object thereof is to immediately receive a user data from a large SCTP without performing a procedure of notifying the arrival of data to a higher layer protocol from the SCTP or being notified that it is ready to receive. By transferring user data to higher layer protocols, it is possible to deliver user data more efficiently and quickly to higher layer protocols and at the same time to prevent performance degradation of the overall system.

1 is a diagram illustrating a protocol layer structure of a general SIGTRAN signaling scheme.

FIG. 2 is a diagram showing the types of chunks used in SCTP in FIG. 1; FIG.

3 is a diagram illustrating a data delivery method from a conventional SCTP to a higher layer protocol.

4 is a diagram illustrating a data delivery method from SCTP to a higher layer protocol according to the present invention.

5 shows the data chunk format used in SCTP.

6 is a flow chart of data transfer from SCTP to higher layer protocol in accordance with the present invention.

A feature of the present invention for achieving the object as described above, in the method for delivering the user data contained in the data chunk received from the power SCTP in the upper layer protocol in SCTP, the data chunk received from the power SCTP Analyzing and determining whether the user data is divided data after determining an upper layer protocol to transfer the user data; In the case where the user data is not partitioned data, a process of transferring the user data to a corresponding upper layer protocol by using a primitive that requires a connection setting ID, a buffer address indicating a data storage location, and data length information as essential transmission factors. It is to provide a user data transmission method of the included STP.

In addition, the above-described user data delivery method of STP includes the steps of extracting user data from the data chunk and temporarily reassembling it in an internal buffer when the user data is divided data; When the reassembly of all the partitioned user data is completed, the upper layer protocol corresponding to the reassembled user data using a primitive having a connection establishment ID, a buffer address indicating a data storage location, and data length information as essential parameters is required. It characterized in that it further comprises the process of delivery.

In addition, the primitive used to transfer the user data to the higher-order protocol, characterized in that it includes a stream ID, stream sequence number, and transport address information as an optional transfer factor.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

As shown in FIG. 4, when SCTP transmits predetermined user data in response to a data transmission request of its upper layer protocol, SCTP transmits data to the upper layer protocol according to the present invention. Receives the user data transmitted from the power SCTP, that is, the user data that should be delivered to the upper layer protocol through the data chunk, and then does not perform the procedure of notifying the upper layer protocol of the arrival of the data or being notified that it is ready to receive The received user data is immediately delivered to the upper layer protocol. The primitives used to receive the received user data include the connection setup ID, the buffer address indicating the data storage location, and the data length as shown in Table 2 below. Stream ID and stream sequence number m Sequence Number) and the transport address are included as optional parameters.

Primitive Contents Parameter Forwarding received data Immediately forward the received data to higher layer protocols Connection setup ID, buffer address, data length, [stream ID], [stream sequence number], [transport address]

In addition, the data chunks received from the power SCTP in the SCTP are presented in the standard as shown in FIG. 5 and the present invention uses the corresponding data chunks.

On the other hand, with reference to Figure 6 attached to the data transfer operation to the upper layer protocol in SCTP according to the present invention will be described in detail as follows.

First, when the end SCTP that needs to transfer user data to the upper layer protocol receives a data chunk including predetermined user data from the power SCTP (step S61), the end SCTP receives a common header for the currently received data chunk. With reference to the association ID set as the destination port number, it is checked whether there is an upper layer protocol to transfer user data included in the corresponding data chunk among its higher layer protocols (step S62).

At this time, if there is no upper layer protocol for transferring user data included in the currently received data chunk, the data chunk received from the power SCTP is discarded (step S68), and the user data included in the currently received data chunk is discarded. If there is a higher layer protocol to be delivered, the stream ID (Stream IDentifier) field and the stream sequence number field included in the data chunk are examined to confirm whether the data chunk is valid (step S63). .

If the currently received data chunk is found to be invalid, that is, if the data chunk contains an invalid stream ID or stream sequence number, the SCTP discards the data chunk received from the power SCTP. At the same time, an error chunk is generated and notified to the supervisor SCTP (step S69).

However, when the data chunk currently received in step S63 is found to be valid, the corresponding SCTP checks whether the user data included in the data chunk is divided data, which is the case when a large SCTP is requested to transmit data from a higher level. If the size of the data to be transmitted is larger than the maximum transfer unit (MTU) of the corresponding transmission path, the data is divided and transmitted for efficiency of transmission. By checking the data start field and the data end field of the received data chunk, it is checked whether the user data included in the data chunk is divided data (step S64).

At this time, if it is determined that the user data is not the divided data, the corresponding user data is transmitted to the upper layer protocol (step S67). If the user data is determined to be the divided data, the corresponding SCTP is a matched SCTP. Each time a data chunk is received from the data chunk, the user data contained in the data chunk is extracted and temporarily stored in an internal buffer, and the user data is reassembled (step S65). When all user data is received and reassembly is completed (step S66), it is transmitted to the upper layer protocol (step S67).

Here, the SCTP uses primitives including the connection establishment ID, the buffer address indicating the data storage location, and the data length information as essential parameters to immediately deliver the user data received from the power SCTP to the upper layer protocol. In addition, the primitive includes a stream ID, a stream sequence number, and a transport address information as optional transmission factors.

Thus, in the present invention, when the SCTP receives user data to be transmitted to the upper layer protocol from the power SCTP, the SCTP does not notify the arrival of the data to the upper layer protocol or perform the procedure of notifying that the reception is ready. It can be delivered immediately to higher layer protocols.

In addition, the embodiments according to the present invention are not limited to the above-described embodiments, and various alternatives, modifications, and changes can be made within the scope apparent to those skilled in the art.

As described above, in the present invention, when receiving user data from the power SCTP, by immediately transmitting the user data to the upper layer protocol without performing the procedure of notifying the arrival of the data to the upper layer protocol or the notification that the reception is completed, the SCTP, Higher-layer protocols allow for more efficient and faster delivery of user data while preventing the performance degradation of the overall system.

Claims (3)

In the method for transmitting the user data contained in the data chunk received from the power SCTP in the SCTP to the upper layer protocol, Analyzing the data chunk received from the power SCTP to determine an upper layer protocol for transferring the user data, and then confirming whether the user data is partitioned data; In the case where the user data is not partitioned data, a process of transferring the user data to a corresponding upper layer protocol by using a primitive that requires a connection setting ID, a buffer address indicating a data storage location, and data length information as essential transmission factors. User data delivery method of SCT. The method of claim 1, Extracting the user data from the data chunk and temporarily storing the user data in an internal buffer if the user data is divided data; When the reassembly of all the partitioned user data is completed, the upper layer protocol corresponding to the reassembled user data using a primitive having a connection establishment ID, a buffer address indicating a data storage location, and data length information as essential parameters is required. User data delivery method of SCT further comprising the step of delivering to. The method according to claim 1 or 2, The primitive used to transfer the user data to a higher protocol includes a stream ID, a stream sequence number, and a transport address information as optional transfer factors.