KR0123252B1 - A loopback method using the relative location values - Google Patents

Abstract

determining a connection location of a network element; if the location corresponds to a start network element of a source point(21), transmitting a loopback OAM(Operation And Maintenance) cell and remaining at an loopback OAM cell receiving stand-by state; determining whether the loopback function is successful; if the location corresponds to an intermediate network element, transmitting an updated loopback OAM cell; and if a terminal network element, deleting the loopback OAM cell or transmitting the updated cell in an opposite direction.

Description

Loopback method with relative position

1 is a format diagram of a loopback OAM cell.

2 is a view for explaining the function of the loopback display field in the loopback OAM cell of FIG.

3 is an illustration of a processing flow of a loopback processing flow according to the present invention.

4 is a loopback processing flow chart applying a relative position value according to the present invention.

* Explanation of symbols for main parts of the drawings

4: Loopback display field 6: Loopback position ID field

7: Source ID field 21: Source Point

22: loopback point

The present invention relates to a loopback method for performing fault management on an arbitrary network element in a broadband integrated telecommunication network (hereinafter referred to as B-ISDN), by applying a relative position value of each element in the network. Even if the absolute position value is not known, it is possible to simplify the implementation of the fault management function to any network element forming the VP / VC (Virtual Path / Virtual Channel) connection and to apply the relative position value to make the connection shape easy and simple. It is about a loopback method.

In general, the loopback function in B-ISDN uses the loopback OAM (Operation And Maintenace) cell to check the status of arbitrary network elements to manage the failure of the system. In the present invention, the values of the loopback location ID and source ID fields of the loopback OAM cell have not yet been determined. It is recommended to specify 1 _B 'as the default value, meaning that this means the endpoint of the VP / VC connection that performs the loopback function.

Therefore, the implementation of the loopback function can only be performed between two end points of each VP / GC connection, so that it is difficult to identify at which point of the VP / VC connection as a part of the fault management function.

The present invention has been made to solve the problems of the prior art as described above, the present invention is applied to the position of the loopback position ID field and the source position ID field of the loopback OAM cell relative value to accurately determine the location of the failure and The purpose is to provide a loopback method that uses relative position values to easily understand the shape of the VP / VC connection.

In order to achieve the above object, the present invention provides a loopback display field indicating whether a cell performs a loopback function, a loopback location ID field specifying a network element on which the loopback function is to be performed, and a network element transmitting the cell. In a loopback method using a loopback OAM cell including a source ID field, the first step of determining a connection position of a network element on which the loopback function is performed, and after performing the first step, the connection position of the network element is a loopback function. A second step of transmitting a loopback OAM cell having a position value (x) relative to an end network element of a loopback point at which a loopback function is performed if the source network element starts a network point, and waiting to receive a loopback OAM cell; A third step of determining whether the loopback function succeeds when the loopback OAM cell is received or a timeout occurs in the standby state; and the number of the first steps A fourth step of transmitting an updated loopback OAM cell according to a value of a loopback notation field of a received loopback OAM cell if the connection element of the network element is located in the middle of a loopback function after the row; A fifth step of deleting the loopback OAM cell or transmitting the updated loopback OAM cell in the opposite direction according to the value of the loopback indication field of the received loopback OAM cell if the connection element of the network element is located at the end after the execution; Characterized in that it comprises a.

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

1 is a diagram illustrating a format of a loopback OAM cell applied to the present invention. First, 5 bytes including a VP Identifier (VPI) value or a VPI / VCI value to indicate a VP or VC connection to perform a loopback function. An OAM type field (2) indicating an OAM cell to perform a fault management function by using a cell header (1), four bits following the cell header (1), and four bits following the OAM type field (2) The OAM function type field (3) indicating that the corresponding OAM cell is a loopback OAM cell among fault management OAM types, and whether the loopback OAM cell returns after loopback is performed on the connection where loopback is performed, is still loopback A loopback indication field (4) indicating whether the cell was before the function was performed, and a correlation tag that exists to distinguish one or more fault management OAM cells on any one connection, if any. elation tag field (5), a loopback location ID field (6) for specifying a network element on the VP / VC connection on which the loopback function is to be performed, and an ID of the network element transmitting the corresponding loopback OAM cell. It consists of a total of 53 bytes including a designated source ID field 7 and finally an error detection code (EDC) field 8, which is an error detection code.

In the process of performing the loopback function using the loopback OAM cell as described above, the function of the loopback display field 4 will be described with reference to FIG. 2. The source point 21 for initially transmitting the loopback OAM cell will be described. If the loopback display field 4 writes a value of '1' and transmits it, the loopback point 22 in which the loopback function is performed receives a loopback OAM cell along the connection and transmits a 'back' to the loopback display field 4. After entering a value of 0 ', the loopback OAM cell is looped back in the opposite direction of transmission to indicate that the loopback function has been performed.

3 is a diagram illustrating an example of a loopback method according to the present invention, and shows an example of a loopback function by applying a position value relative to the values of the loopback position ID field 6 and the source ID field 7 of the loopback OAM cell.

As shown in the figure, there are two connections of the VP layer and the VC layer. Each connection forms four network elements. Each of them is named VP / VC-A, VP / VC-B, VP / VC-C, P / VC-D, aligned from the left, and the fields of the loopback OAM cell are simply called the loopback display field (4) and loopback position ID. Field 6 and source ID field 7 are shown in this order. First, the performance of the loopback function for the connection of the VP layer will be described step by step.

If the VP-A network element wants to perform the loopback function for the connection to the VP-C, the VP-A sets '1' in the loopback indication field (4) of the VP loopback OAM cell and the loopback position ID field (6). '2', which is a position value relative to its own VP-A and VP-C, is written in the source ID field 7 in the same value (2) (31), and transmitted in the transmission direction through the corresponding VP connection. .

The VP-B network element receives the loopback OAM cell through the corresponding VP connection, and when the value of the loopback indication field 4 is '1', decreases the value of the loopback location ID field 6 by '1'. As a result of the decrease, the value is not '0' (32), so the cell is transmitted through the VP connection as is.

The VP-C network element receives the loopback OAM cell through the corresponding VP connection and performs the same process as the VP-B network element. As a result, if the value of the loopback position ID field 6 is determined to be '0' (33), the value of the loopback display field 4 is converted to '0' and the loopback position ID field is converted from the value of the source ID field 7. The value of (6) is subtracted and the value '2' is returned and written back into the loopback position ID field 6 and the source ID field 7 of the loopback OAM cell to be transmitted, and looped back (34).

The VP-B network element decreases the value of the source ID field 7 of the loopback OAM cell, which is looped back and receives it again, and transmits it in the transmission direction (35).

The VP-A network element receives the retransmitted loopback OAM cell and examines the value of the loopback indication field 4 and decreases the value of the source ID field 7 by 1 if the value is '0'. If the reduced value is '0', the corresponding loopback OAM cell is determined to be a cell transmitted by itself (36), and the loopback function to the VP-C network element is successful.

If the loopback OAM cell is not received, this may mean that a failure occurs at any point of the connection to the VP-C network element.

The following describes an example of a VC connection when the shape of the connection is not known, that is, how many network elements are included up to the end point of the connection to be tested.

A VC-A network element connected to user-A is required to have a '11… 'signifying VC termination to the VC loopback OAM cell if it wants a loopback test to the end of the VC connection. 1 _B 'is written into the loopback position ID field 6, and the same value as the '11... After inputting 1 _B ',' 1 'is written in the loopback indication field 4 and transmitted in the transmission direction through the VC connection (37).

The VC-B, VC-C, and VC-D network elements receive the loopback OAM cell, and when the value of the loopback display field 4 is '1', decreases the value of the loopback location ID field 6 by '1'. Transmission continues in the transmission direction (38)

User-B receives the loopback OAM cell, searches for the loopback indication field 4 and if it is '1' determines that it is the endpoint of the VC connection (39), the loopback location ID in the source ID field 7 The value of the field 6 is subtracted and written in the loopback position ID field 6 and the source ID field 7 to be transmitted, and the loopback display field 4 is converted to '0' and transmitted in the opposite direction of transmission (310). .

The VC-D, VC-C, and VC-B network elements receive the loopback OAM cell, so that the loopback indication field 4 is '0', so that the value of the source ID field 7 is decreased by '1' and the value is '0'. In this case, transmission is performed in the transmission direction (311).

The VC-A node receives the loopback OAM cell and decreases the value of the source ID field 7 by 1 because the value of the loopback indication field 4 is '0'. If the value after the decrease is '0', it becomes a loopback OAM cell transmitted by itself, and it is found that the terminal succeeds to the end point of the loopback function (312). At this time, the value written in the loopback location ID field 6 is read to determine the value of the VC connection. We know how many network elements of the VC layer exist to the end. Here, four VC-related network elements exist in the right transmission direction of the VC-A network element. The VC-A node may or may not delete the loopback OAM cell. If the VC-A node does not delete the loopback OAM cell, the loopback OAM cell is continuously sent in the transmission direction.

The user-A node receives the loopback OAM cell and examines the value of the loopback indication field 4. Since the value is '0' and the value of the loopback location ID field 6 is not '0', the loopback OAM cell is deleted from the VC connection. In this case, the values of the source ID field 7 and the loopback location ID field 6 may be determined to determine how many network elements are involved in the corresponding VC connection in the network (313).

That is, since the value of the source ID field 7 is '1' and the value of the loopback location ID field 6 is 4, there are five network elements associated with five corresponding VC connections to its right side in the network.

4 is a loopback processing flowchart applying a relative position value according to the present invention.

As shown in the figure, the present invention first determines the connection position of the network element in performing the loopback function (401).

As a result of the determination, if the connection position of the network element is the source point 21, which is the network element starting the loopback function, '1' in the loopback display field 4 of the loopback OAM cell, x in the loopback position ID field 6, and source X is written in the ID field 7 and transmitted (402), and a timeout time is registered in the timer (403). X represents a position difference value relative to the loopback point 22.

When the loopback OAM cell is looped back and re-received (404), when the loopback OAM cell is received (405), the value of the source ID field (7) is decreased by '1' (406) and the loopback display field (4) The value of the source ID field 7 is retrieved (407). As a result of the search, if the values of the loopback display field 4 and the source ID field 7 are all 0, it is determined that the loopback function succeeds to the network element relatively separated by the x value (408), and the loopback OAM cell is deleted or Transmission continues in the transmission direction (409), and if the values of the loopback indication field 4 and the source ID field 7 are not zero, transmission is made to the next node (410).

Meanwhile, when a time-out occurs in the loopback OAM cell reception wait (404), it is determined that a failure occurs between the x-th network elements of the relative position (312).

If the connection position of the network element is an intermediate network element of the loopback function, when the loopback OAM cell is received in the normal state 413, the loopback display field 4 is checked (414), and the loopback display field is checked. If the value of (4) is '1', the value of the loopback position ID field 6 is decreased by '1' (415). If the value of the loopback display field 4 is '0', the value of the source ID field 7 is decreased. After decreasing the value '1' (417), the loopback OAM cell is transmitted in the transmission direction (418), and the normal state 413 is reached.

If the connection position of the network element is the loopback point 22 which is the end network element of the loopback function, the value of the loopback display field 4 is checked in the normal state 413 (419), and the value of the loopback display field 4 is checked. If the value is '1', '0' is written in the loopback display field 4 (421), and the value of the received loopback OAM cell (source ID-loopback location ID) is stored in the loopback location ID field 6 and the source ID field. (7) write in each (422,423), transmit in the opposite direction of transmission (424), if the value of the loopback display field (4) is '0' delete the loopback OAM cell (425), and the source ID field (7) After determining the shape of the network that the network element whose value is the sum of the absolute value of) and the value of the loopback position ID field 6 exists on the connection (426), the normal state 413 is obtained.

As described above, according to the present invention, it is possible to easily grasp the connection shape of the network by performing the loopback function using the relative position value, and the position of the fault can be easily determined when the fault position detection function is performed.

Claims (6)

A loopback display field (4) indicating whether the cell performs the loopback function, a loopback position ID field (6) that specifies the network element on which the loopback function is to be performed, and a source ID field specifying the network element that transmitted the cell. In the loopback method using a loopback OAM cell comprising (7), a first step of determining a connection position of a network element on which the loopback function is performed, and after performing the first step, the connection position of the network element is used for the loopback function. If it is the starting network element of the starting source point 21, the loopback OAM cell having a position value (x) relative to the ending network element of the loopback point 22 where the loopback function is performed is transmitted and the loopback OAM cell is waiting to be received. A second step and a third step of determining whether the loopback function is successful when the loopback OAM cell is received or a timeout occurs in the standby state; and after performing the first step, the network element is connected. If the value is a network element located in the middle of the loopback function, the fourth step of transmitting the updated loopback OAM cell according to the value of the loopback indication field 4 of the received loopback OAM cell, and after performing the first step, A fifth step of deleting the loopback OAM cell or transmitting the updated loopback OAM cell in the opposite direction according to the value of the loopback indication field 4 of the received loopback OAM cell when the connection position of the network element is located at the end. Loopback method applying a relative position value, characterized in that. 2. The method of claim 1, wherein the second step further comprises the step wherein the starting network element writes a first specific value in the loopback indication field 4 of the loopback OAM cell and is relative to the loopback location ID field 6 and the source ID field 7. A sixth step of writing the position value x to transmit the loopback OAM cell in the transmission direction, and after transmitting the loopback OAM cell, registering a timeout time with a timer and making the loopback OAM cell receive standby state Loopback method applying a relative position value, characterized in that it comprises a. The method of claim 1, wherein in the third step, when the loopback OAM cell is received in the loopback OAM cell reception standby state, the value of the source ID field 7 is decreased by '1', and the loopback display field 4 and the source ID field are reduced. A sixth step of retrieving the value of (7); and if the value of the source ID field 7 is the second specific value with the second specific value of the loopback display field (4), the loopback function is determined to be successful. And transmitting the loopback OAM cell in the transmission direction if the value of the loopback display field 4 or the source ID field 7 is not the second specific value, and timeout in the loopback OAM cell reception standby state. And an eighth step of determining that there is an obstacle between the relative positions with the loopback point (22). The method of claim 1, wherein the fourth step comprises: searching for a value of the loopback display field 4 when the intermediate network element receives a loopback OAM cell in a normal state; and after performing the sixth step If the loopback display field 4 has the first specific value, the value of the loopback location ID field 6 is decreased by '1' and the loopback OAM cell is transmitted in the transmission direction, and after performing the sixth step, And the eighth step of decreasing the value of the source ID field 7 by 1 when the value of the loopback display field 4 has the second specific value and transmitting the loopback OAM cell in the transmission direction. Loopback method with values applied. The method of claim 1, wherein the fifth step comprises a sixth step of searching for a value of the loopback display field 4 when the end network element receives a loopback OAM cell in a normal state, and after performing the sixth step, the loopback display field. If (4) has the first specific value, the seventh step of updating to the second specific value; and after performing the seventh step, the loopback position ID field (6) in the value of the source ID field (7) of the received loopback OAM cell. ) Is written in the loopback position ID field 6 and the source ID field 7, and transmitted in the opposite direction of transmission, and the loopback display field 4 is performed after the sixth step. And a ninth step of deleting the loopback OAM cell and determining the shape of the network if the specific value has a specific value. 6. The network shape identification according to claim 9, wherein the network shape identification in the ninth step is to identify the network element existing on the connection by the sum of the absolute value of the source ID field 7 and the value of the loopback location ID field 6. Loopback method applying the relative position feature.