JP2007208900A - Alarm transfer system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To generate an alarming frame having a frame length of a normal frame to report the occurrence of a fault regarding an alarm transfer system which reports the occurrence of the fault with the alarming frame. <P>SOLUTION: In the alarm transfer system where opposing devices S and C are connected through an in-use line L1 and a spare line L2 respectively via two or more devices A, B, D and E to transfer the alarming frame by detecting the occurrence of the fault, each device comprises a link down detection means, a means of generating the alarming frame in the case of detecting link down by the link down detection means and a means of receiving and transferring the alarming frame. The means of generating the alarming frame generates the alarming frame wherein the pattern of preamble at the head of the frame includes continuous 8 bits of "1" and continuous 8 bits of "0" arranged alternately, which are different from what the pattern of preamble in the normal frame includes. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to an alarm transfer system that detects the occurrence of a failure such as a link down or an error and notifies it by an alarm frame.

  There are known local area networks (LAN) and wide area networks (WAN) with various configurations for transferring various data between communication devices, and various configurations with transmission speeds of several Mbps to several Gbps are known. It has been. There is also known a configuration in which an important line between communication devices is used as a redundant configuration for working and protection, and data transmission between communication devices is continued by switching to a protection line when a failure occurs in the working line.

  FIG. 5A shows a configuration in which working and backup redundant lines are set in a dedicated line format between opposing communication apparatuses in a conventional LAN or WAN, and FIG. 5B shows a frame configuration. Indicates. In FIG. 5A, a working line and a spare line are established between the device S and the device C by the line 51 and the line 52, and the network is established using the devices A, B, D, and E as relay devices. Shows the configured state. The device S transmits the same data to the lines 51 and 52 at the same time, or transmits data to the line 51 as the working line. The device C includes a selector SEL, and switches to the protection line side by the selector SEL when a failure occurs in the working line. In the case where the same data is transmitted from the device S to the working line 51 and the protection line 52, data transmission can be continued by the working protection switching by the selector SEL of the device C. When the device S is transmitting data only to the working line 51 when it is normal, the device S can continue the data transmission by switching from the working line 51 to the protection line 52 and transmitting the data.

  Also, as shown in FIG. 5B, the frame structure is alternately “1”, “0” 7 octets or more preamble and 1 oct SFD (Start Frame Delimiter) (“10101011”). ”), 6 oct destination (DA), 6 oct source (SA), 2 oct frame type or data length *, 46 to 1500 oct data / PAD (padding), and 4 oct FCS (frame check sequence) ), And may include Ext (Carrier Extension), and if the shortest frame length between the destination (DA) and the frame check sequence (FCS) is 64 octets and the actual data length is short, padding PAD is added. And keep the shortest frame length To. Each device in the network discards the frame as not being a regular frame when the frame length is shorter than the shortest frame. It is also possible to add a tag indicating the priority order to the aforementioned frame.

  In the above-described frame configuration, an alarm frame for notifying the occurrence of a failure is not defined. Therefore, in the network system in which the optical conversion repeater of the user side LAN and the optical conversion bridge of the telecommunications carrier side WAN are connected by an optical fiber transmission line, the above shortest A frame having a frame length shorter than the frame length is transmitted as an alarm frame from a device on the user side LAN to an optical conversion bridge on the carrier side WAN via an optical fiber transmission line, and in the optical conversion bridge on the carrier side WAN. An alarm frame is detected, and after the detection, the alarm frame is discarded. Note that even if this alarm frame is erroneously sent to the WAN, it is discarded by the node that received the alarm frame because it is shorter than the shortest frame length. Therefore, means for notifying the occurrence of a failure in the user side LAN without adversely affecting the WAN side has been proposed (for example, see Patent Document 1).

In a network system in which a user side LAN is connected to a telecommunications carrier side WAN via a plurality of relay devices, the occurrence of a failure is notified using an alarm frame having a frame length shorter than the shortest frame length. In addition, a means has also been proposed in which the relay device adds an identification code indicating that the alarm frame has passed through its own device and transfers the same (for example, see Patent Document 2).
JP 2002-94541 A JP 2003-87291 A

  As described above, the apparatus C is notified of the occurrence of a failure in the working line 51 as a network configuration in which data can be transmitted between the apparatus S and the apparatus C shown in FIG. In this case, conventionally, an alarm frame for notifying the occurrence of a failure is not defined. Therefore, if an alarm frame having a short frame length as described in Patent Documents 1 and 2 is used, the alarm frame between the devices S and C is used. It is necessary to change the configuration of the devices A, B, D, and E to a configuration that enables transfer without discarding frames having a frame length shorter than the shortest frame length. If the route between the devices S and C is complicated, all devices on the route for transferring alarm frames must be changed to a configuration that allows alarm frames shorter than the shortest frame length to pass without being discarded. There arises a problem that the cost increases due to the change process, and a problem that the reliability of the network that transfers only a frame having a regular frame length is impaired.

  The present invention solves the above-described conventional problems, and an object thereof is to notify the occurrence of a failure by at least an alarm frame having the shortest frame length.

  The alarm transfer system according to the present invention is an alarm transfer system in which a working line and a protection line are connected to each other through a plurality of devices, and an alarm frame is transferred when a failure occurs. A link down detection means, a means for generating an alarm frame when link down is detected by the link down detection means, and a means for receiving and transferring the alarm frame to generate the alarm frame. The means for generating has a configuration for generating an alarm frame in which the preamble pattern at the head of the frame is different from the preamble pattern of the normal frame.

  The means for generating the alarm frame has a configuration in which the preamble at the head of the frame is transmitted as a pattern in which “1” continuous 8 bits and “0” continuous 8 bits are alternately arranged.

  Further, the means for generating the alarm frame transmits the destination field and the transmission source field as predetermined patterns to the transmission side and the reception side of the frame, respectively, when link down is detected by the link down detection means. It has the composition to do.

  In addition, each of the devices includes a received frame error check unit, an error frame count unit, a determination unit whether the error frame number exceeds a threshold, and the error frame number exceeds the threshold by the determination unit. In some cases, the destination field of the alarm frame generated by the means for generating the alarm frame is set as a pattern indicating error frame number transfer, and the transmission source field is transmitted as the number of error frames counted.

  According to the present invention, an alarm frame that detects and notifies the occurrence of a failure is distinguished from a normal frame by using a specific preamble pattern, and is discarded during transfer by setting the same frame length as the normal frame. There is nothing. Further, the link down detection port can be notified by the pattern of the destination field and the transmission source field. Further, when the number of error frames exceeds a preset threshold value due to deterioration of the line state or the like, a warning frame can be notified. Therefore, switching between the working line and the protection line can be performed reliably and promptly.

  Referring to FIG. 1, the alarm transfer system according to the present invention connects the opposing devices S and C through a plurality of devices A, B, D, and E through a working line L1 and a protection line L2, respectively. In an alarm transfer system for transferring an alarm frame by detection, each device receives a warning frame, a link down detection means, a means for generating an alarm frame when a link down is detected by the link down detection means, and an alarm frame. The means for generating an alarm frame includes, for example, “1” continuous 8 bits and “0” continuous 8 bits different from the preamble pattern of the normal frame. It has a configuration for generating alarm frames in an alternately arranged pattern.

  FIG. 1 is an explanatory diagram of Embodiment 1 of the present invention, in which the opposite devices S and C are connected by a line L1 via devices A and B and a line L2 via devices D and E. Each of the devices has a frame transmission / reception unit (not shown), shows a warning transfer system, and has a link down detection means and means for generating an alarm frame when link down is detected by the link down detection means, And a means for receiving and transferring an alarm frame. Also, one device C of the opposite device is provided with a selector SEL for active backup switching.

  In such an alarm transfer system, for example, the line L1 is used as a working line, the line L2 is used as a protection line, and the working line L1 is selected by the selector SEL of the device C when the data is normal. When a failure occurs in the working line L1, the reception process is performed on the data transmitted through the protection line L2 by switching from the solid line state to the dotted line state. The occurrence of the failure is notified by generating an alarm frame that is at least shorter than the normal shortest frame length. Therefore, as described above, each of the devices A to E includes a link down detection unit, an error check unit, an alarm frame generation unit, and a unit that receives and transfers an alarm frame. Also, as in the conventional example, there is provided means for discarding an illegal frame having a frame length equal to or shorter than the shortest frame length.

  For example, when link down is detected by the link down detection unit of the device B on the working line L1 side, the device B generates an alarm frame by the alarm frame generation unit and transfers it to the device C. The basic structure of this alarm frame is to use the frame format shown in FIG. 5 (B), maintain the general minimum frame length of 64 octets, and distinguish the alarm frame from the normal frame by the preamble pattern. Is what you do. The preamble of a normal frame is a pattern of 7 octets or more alternately set to “1” and “0”, but the preamble of an alarm frame is composed of “1” of 8 bits and “0” of 8 bits. Alternately, for example, a 64-bit pattern as a whole. That is, it is possible to distinguish between a general frame and an alarm frame according to the preamble pattern.

  FIG. 2 shows a main part of a frame transmission / reception unit including the link-down detection unit, the alarm frame generation unit, and the alarm frame transfer unit. Reference numeral 21 denotes a frame reception unit, and 22 denotes a frame detection generation determination unit. , 23 is a frame insertion unit, 24 is an alarm transfer frame generation unit, 25 is a DA / SA frame generation unit, and 26 is a frame transmission unit. Each unit can also be realized by a configuration including a processor and a memory.

  The frame receiving unit 21 has a configuration for receiving a frame from a transmission-side device, and can include a configuration including the above-described error check unit and a failure detection unit such as link down detection. Note that the error detection unit and the failure detection unit may be provided in the frame detection generation determination unit 22. Further, the frame detection generation determination unit 22 controls the alarm transfer frame generation unit 24, the DA / SA frame generation unit 25, and the frame insertion unit 23 by detecting an error frame by link down detection and error check, and thereby, a preamble. The 8-bit continuous “1” and the 8-bit continuous “0” are alternately made into a 64-bit pattern, and an alarm frame is assembled by the frame insertion unit 23 and transmitted from the frame transmission unit 26. To do. On the other hand, when the devices A, B, D, and E on the lines L1 and L2 receive the alarm frame, they relay the alarm frame.

  FIG. 3 shows a time chart of the active standby switching. For example, when the device B (see FIG. 1) detects link down, the function of the alarm transfer frame generation unit 24 and the frame insertion unit 23 An alarm frame is transmitted from the transmission unit 26 to the device C. The device C receives and detects this alarm frame, and switches the device B side to the device E side, that is, the working line L1 and the protection line L2, by the selector SEL.

  FIG. 4 is an explanatory diagram of a main part of the second embodiment of the present invention. The same reference numerals as those in FIG. 1 denote the same parts, and the lines L1 and L2 between the devices S and C each include a transmission / reception line. A1, A2, B1 to B4, C1, and C2 indicate frame transmission / reception ports of the apparatuses A, B, and C, respectively. The selectors of the devices S and C are not shown. For example, the link down detection can be detected by the frame receiving unit 21 shown in FIG. Also, as described above, the alarm frame generated by the link down detection has a preamble pattern different from the normal frame preamble in the alarm transfer frame generation unit 24, and the link down position and error frequent occurrence state information are alarmed. This is notified using the frame destination (DA field) and the transmission source (SA field).

  In the case of link down detection, the DA field of the alarm frame is set to “: 0.0.0.0” and the SA field is set to “: 0.0.0.1” for the device on the frame transmission side. To the receiving device of the frame, the DA field of the alarm frame is set to “: 1.1.1.1”, and the SA field is set to “: 1.1.1.1”. To do. This can be generated, for example, by control from the frame detection generation determination unit 22 in the DA / SA frame generation unit 25 in FIG. Note that the link-down detection position can be notified in the DA field and the SA field by a pattern different from the above-described case.

  For example, when link down is detected at the port B1 of the device B, the device B indicates to the device A from the port B2 that the frame is an alarm frame, and the DA field is set to “: 0.0.0.0. 0 ”and the SA field is transmitted as“: 0.0.0.1 ”. In the device A, the alarm frame is received at the port A2, and the fact that the link down is detected at the port B1 of the device B can be recognized by the DA field and the SA field. In this case, if the device A is configured to perform active backup switching, the device A switches to the protection line L2 side and continues frame transmission. When the same data is transferred to the working line L1 and the protection line L2, the device A continues the frame transmission as it is.

  In addition, the device B indicates from the port B2 to the port C1 of the device C that it is an alarm frame by a preamble, its DA field is set to “: 1.1.1.1”, and the SA field is set to “ : 1.1.1.1 ". The device A can recognize the link down at the port B1 of the device B facing the port A1. In the device C, the alarm frame is received at the port C1, and it is recognized by the DA field and the SA field that the link down is detected at the port B1 of the device B, as described above. In addition, the selector switches the working line L1 to the protection line L2.

  Further, as described above, the error detection means detects an error of the received frame, and counts the number of error frames within a unit time, for example. When the number of error frames exceeds a preset threshold value, an alarm frame with frequent errors is generated and transmitted. As described above, this alarm frame indicates that it is an alarm frame by the preamble, and its DA field is set to “: FF.FF.FF.FF”, and the number of error frames is inserted into the SA field for transmission. To do. Also in this case, the number of error frames is counted by the error check of the received frame by the frame detection generation determination unit 22, and when the number of error frames exceeds the threshold, the DA / SA frame generation unit 25 causes the DA field and the SA field to be Can be generated as the aforementioned contents.

  For example, an error check is performed on a frame received at the port B1 of the device B, and if the number of frames in which the error occurs exceeds a threshold, the DA field is set from the port B3 of the device B to the port A2 of the device A. , “: FF.FF.FF.FF”, an alarm frame in which the number of error frames is inserted is transmitted in the SA field, and the DA field is similarly set from the port B2 of the device B to the port C1 of the device C. , “: FF.FF.FF.FF”, and an alarm frame with the number of error frames inserted in the SA field is transmitted. In the apparatus C, it is determined whether or not to perform active backup switching based on the number of error frames. If the number of error frames exceeds an allowable value, the active backup switching is performed.

It is principal part explanatory drawing of Example 1 of this invention. It is principal part explanatory drawing of the flame | frame transmission / reception part of Example 1 of this invention. It is a time chart of Example 1 of the present invention. It is principal part explanatory drawing of Example 2 of this invention. It is explanatory drawing of a prior art example.

Explanation of symbols

A to C, S device L1, L2 line SEL selector 21 frame receiving unit 22 frame detection generation determining unit 23 frame inserting unit 24 alarm transfer frame generating unit 25 DA / SA frame generating unit 26 frame transmitting unit

Claims (4)

In the alarm transfer system that connects the opposing devices via a plurality of devices, respectively, by the working line and the protection line, and transfers the alarm frame when the failure occurs,
Each of the devices has a configuration including link down detection means, means for generating an alarm frame when link down is detected by the link down detection means, and means for receiving and transferring the alarm frame, The alarm transfer system characterized in that the means for generating the alarm frame has a configuration for generating an alarm frame in which the preamble pattern at the head of the frame is different from the preamble pattern of the normal frame.   The means for generating the alarm frame has a configuration in which a preamble at the head of the frame is transmitted as a pattern in which "1" continuous 8 bits and "0" continuous 8 bits are alternately arranged. Alarm transfer system.   The means for generating the alarm frame transmits a destination field and a source field as a predetermined pattern to the transmission side and the reception side of the frame, respectively, when link down is detected by the link down detection means. The alarm transfer system according to claim 1, wherein the alarm transfer system has a configuration.   Each of the devices includes a received frame error check unit, an error frame count unit, a determination unit whether the error frame number exceeds a threshold value, and the determination unit when the error frame number exceeds the threshold value. The alarm frame destination field generated by the means for generating the alarm frame is set as a pattern indicating error frame number transfer, and the transmission source field is transmitted as the counted number of error frames. 2. The alarm transfer system according to 2.

Images