JP4624443B2 - Network device setting method - Google Patents

Description

  The present invention relates to a network device setting method in the case where an Ethernet (registered trademark) OAM function is set for a network device in an Ethernet (registered trademark) communication system that performs maintenance operation management using the Ethernet (registered trademark) OAM function. About.

  Ethernet (registered trademark) OAM (Operation Administration and Maintenance) used for maintenance operation management in Ethernet (registered trademark) is defined in ITU-TY Y.1731 and IEEE 802.1ag. In Ethernet (registered trademark) OAM, a monitoring section is called a ME (Maintenance Entity), and this ME can be set for each MEG (Maintenance Entity Group) level. Eight monitoring levels of 0 to 7 are defined as MEG levels. Moreover, it is necessary to set MEP (Maintenance entity group End Point) which is a termination point at both ends of the monitoring section (ME). FIG. 8 shows an example of setting ME and MEP. As shown in FIG. 8, an ME (monitoring section) is set between apparatuses, and MEPs (end points) indicated by downward black triangles are set at both ends of the monitoring section. Further, ME and MEP have MEG level as an attribute, and as shown in FIG. 8, it is defined that the ME of the lower MEG level does not straddle the ME of the upper MEG level. Therefore, when performing maintenance operation management using the Ethernet (registered trademark) OAM function, it is necessary to select a device for setting the MEP in advance and set the MEP for the selected device.

  Also, the PDU (Protocol Data Unit) of the Ethernet (registered trademark) OAM frame has the configuration shown in FIG. 9, and includes MEL (MEG Level), Version, OpCode (Operation Code), Flags, TVL (Type, Length). , Value) field. Therefore, when an Ethernet (registered trademark) OAM frame is generated in a device set to MEP, the MEG level set to the own device is inserted into the field (MEL).

  FIG. 10 is a diagram illustrating an operation when an apparatus in which MEP is set receives an Ethernet (registered trademark) OAM frame. As shown in FIG. 10, a device in which MEP is set has the same Ethernet (registered trademark) OAM frame as the MEG level set in the own device (the MEG level in which the value of the MEL field is set in the own device). When the same Ethernet (registered trademark) OAM frame) is received, the frame is terminated (captured), and processing is performed according to the contents of the frame. On the other hand, an Ethernet (registered trademark) OAM frame having a MEL field value higher than the set MEG level is transmitted because it is not to be processed by the device (MEP). In addition, a device to which MEP is not set transmits all Ethernet (registered trademark) OAM frames (see, for example, Patent Document 1 below).

  On the other hand, as a method for recognizing a remote device and setting the device, for example, in an PON (Passive Optical Network) system, an OLT (Optical Line Terminal) on the station side is an ONU (Optical Network Unit) on the user side. ) Exists. The ONU registration method in this PON system is defined by IEEE 802.3ah, and ONU registration is performed by transmitting and receiving PON-specific OAM frames. Here, the OAM frame used when registering the ONU is different from the Ethernet (registered trademark) OAM frame, and does not include the MEG level. Therefore, as shown in FIG. 11, the OAM frame generated and transmitted by the OLT is always terminated (taken in) by the ONU. This is because the OLT control target device is only an adjacent ONU.

JP 2008-28801 A

  In order to perform maintenance operation management using the Ethernet (registered trademark) OAM function, it is necessary to select two devices among the devices constituting the network and set MEPs for them. For example, as shown in FIG. 12, when the management device and the communication device are in the same place, the parameters can be set directly on the communication device for setting the MEP, for example, by an individual line, but the MEP is set. When the communication device is remote, the parameter cannot be set directly from the management device, so it is necessary to transfer the parameter information by the Ethernet (registered trademark) frame via the Ethernet (registered trademark) transmission path.

  Here, as described above, the Ethernet (registered trademark) OAM function has the concept of the MEG level, and the network device determines whether to terminate the Ethernet (registered trademark) OAM frame using the MEG level. For this reason, in a network device in which MEP is not set, all Ethernet (registered trademark) OAM frames are transmitted. Accordingly, an Ethernet (registered trademark) OAM frame is transmitted to a network device that is not set as a MEP, and a new MEP cannot be set. That is, when a MEP is set in a remote network device, the Ethernet (registered) is set. There was a problem that the trademark OAM frame could not be used.

  On the other hand, in the above-described PON system, by using an OAM frame that is always terminated by the ONU, which is defined in IEEE 802.3ah, the remote unit (ONU) via the Ethernet (registered trademark) transmission path is used. Setting is realized. Therefore, if a frame similar to the OAM frame used in the PON system is used, parameter information (information for setting a MEP in a remote device) can be transferred via an Ethernet (registered trademark) transmission path. Become. However, when this OAM frame is used for MEP setting, it is necessary to process two types of OAM frame used when setting MEP and Ethernet (registered trademark) OAM frame used after setting MEP. Another problem is that it becomes complicated.

  The present invention has been made in view of the above, and an Ethernet (registered trademark) OAM frame that uses the MEP setting necessary for executing the Ethernet (registered trademark) OAM function in the Ethernet (registered trademark) OAM function. An object is to obtain a network device setting method performed using.

  In order to solve the above-described problems and achieve the object, the present invention directly communicates with a network management apparatus in a communication system that performs maintenance, operation, and management of network devices using the Ethernet (registered trademark) OAM function. A network device setting method in which the first network device capable of performing the setting of the second network device that cannot directly communicate with the management device instead of the management device is the first network device. An OAM frame transmission step in which the device generates an Ethernet (registered trademark) OAM frame including the setting information of the second network device acquired from the management device, sets the MEG level to the lowest level, and transmits the OAM frame. The second network device has an Ethernet (registered trademark) OAM frame with the lowest MEG level. Terminates it if it receives the beam, characterized in that it comprises a and a OAM frame receiving step of setting the own device in accordance with the setting information included in the frame the received.

  According to the present invention, there is an effect that the network device can be set using the Ethernet (registered trademark) OAM frame.

  Embodiments of a network device setting method according to the present invention will be described below in detail with reference to the drawings. Note that the present invention is not limited to the embodiments.

Embodiment 1 FIG.
FIG. 1 is a diagram showing a configuration example of a first embodiment of a communication system to which a network device setting method according to the present invention is applied. This communication system includes a management device 1 and communication devices 2A and 2B which are network devices, and the communication devices 2A and 2B are connected via a transmission path 3. The management device 1 is connected to the communication device 2A and can directly set the communication device 2A, but cannot directly set the communication device 2B.

  The management device 1 has a function of changing the settings of the communication devices 2A and 2B. However, the setting of the communication device 2B is performed via the communication device 2A. Further, it has a function of monitoring the communication devices 2A and 2B by the Ethernet (registered trademark) OAM function, and performs monitoring (maintenance / operation / management) of the network including the communication devices 2A and 2B as components.

  The communication device 2A changes the internal setting in accordance with an instruction from the management device 1, and performs an operation according to the setting content. In addition, when the OAM frame generation unit 4 is provided and information to be set in another communication device (communication device 2B, other communication device not shown) is received from the management device 1, the Ethernet (registration) including the received information is registered. A OAM frame (hereinafter simply referred to as “OAM frame”) 10 is generated by the OAM frame generation unit 4 and output (transmitted) to the transmission path 3.

  The communication device 2B includes an OAM frame termination unit 5. When the OAM frame 10 is received, the communication device 2B determines whether or not to terminate the OAM frame 10, and executes the operation according to the contents when terminating. .

  Next, referring to FIG. 2-1 to FIG. 2-3, the management device 1 sets the MEP in the communication device other than the communication device 2A via the communication device 2A, and the communication device in which the MEP is set. The operation of returning the MEP to the state where the MEP is not set (releasing the MEP setting) will be described. Here, as an example, an operation for setting the MEP in the communication device 2B and an operation for canceling the MEP setting of the communication device 2B will be described.

  When the MEP is set in the communication device 2B in which the MEP is not set, the management device 1 outputs the MEP setting information including the MEG level information to the communication device 2A and sets the MEP in the communication device 2B. An instruction is issued to the communication device 2A.

  In the communication device 2A that has received the MEP setting information and the instruction from the management device 1, the OAM frame generation unit 4 includes the received MEP setting information and the OAM frame 11 in which the MEG level is set to the lowest level (MEG level = 0). Is generated and transmitted (see FIG. 2-1).

  Since the communication apparatus 2B does not set the MEP, all the OAM frames are normally transmitted. However, when the MEP is not set in the present embodiment, when the MAM level = 0 OAM frame is received. It must be terminated. Then, the internal setting is changed based on the MEP setting information included in the received OAM frame, and thereafter, the set MEP Ethernet (registered trademark) OAM is processed.

  When the communication apparatus 2B is operating with the MEP set, when the OAM frame 12 having the same MEG level as the MEG level set for the communication apparatus 2B is received, the communication apparatus 2B terminates the MAM level and sets the MEG higher than the MEG level set for the communication apparatus 2B. If a level OAM frame is received, it is transmitted (see FIG. 2-2).

  On the other hand, when the monitoring of the communication device 2B by the Ethernet (registered trademark) OAM function is not required and the MEP setting is canceled, the management device 1 sends information (release instruction information) for instructing the cancellation of the MEP setting to the communication device 2A. An instruction is issued to cancel the MEP setting of the communication device 2B. At this time, the MEG level set in the communication device 2B is also notified. In the communication apparatus 2A that receives the instruction from the management apparatus 1, the OAM frame generation unit 4 generates and transmits an OAM frame 13 that includes the release instruction information and has the same MEG level as the MEG level set in the communication apparatus 2B. (See FIG. 2-3). Since the communication device 2B that has received the OAM frame 13 is in a state in which MEP is set, when the OAM frame 13 is terminated and the contents thereof are confirmed and release instruction information is included, the MEP setting of the own device Is canceled and the Ethernet (registered trademark) OAM processing is terminated.

  FIG. 3 is a flowchart showing a processing flow of the OAM frame termination unit 5 included in the communication device 2B. The operation of the OAM frame termination unit 5 will be described in detail with reference to FIG.

  When receiving the frame (step S1), the OAM frame termination unit 5 checks whether it is an OAM frame (step S2). As a result of the confirmation, if the frame is not an OAM frame (step S2, No), the Ethernet (registered trademark) OAM process is unnecessary, and the frame is transmitted (step S7). On the other hand, in the case of an OAM frame (step S2, Yes), it is confirmed whether MEP is set in the own apparatus (step S3). If the MEP is not set as a result of the confirmation (step S3, Yes), it is further determined whether or not the MEG level of the received OAM frame is 0 (minimum level) (step S4). If the MEG level = 0 (step S4, Yes), the received OAM frame is terminated, and the communication device 2B executes processing according to the content (step S5). For example, if the MEP setting information is included, the internal setting is changed so that the Ethernet (registered trademark) OAM process of the set MEP is performed. On the other hand, when the MEG level is not 0 (step S4, No), since it is an OAM frame addressed to another device, it is transmitted (step S7).

  If it is determined that the MEP is set in step S3 (step S3, No), it is confirmed whether the OAM frame has a higher MEG level than the MEG level set in the own device (step S6). If it is higher than the MEP set for the own device (step S6, Yes), it is transmitted because it is an OAM frame addressed to another device (step S7). On the other hand, when the MEG levels are the same (step S6, No), the received OAM frame is terminated, and the communication device 2B executes a process according to the content (step S5). For example, if release instruction information for instructing release of the MEP setting is included, the internal setting is changed, and the Ethernet (registered trademark) OAM processing of the instructed MEP is terminated.

  As described above, in the present embodiment, when setting a remote communication device that cannot directly communicate with the management device, the communication device that can directly communicate with the management device receives the setting information (MEP setting information) from the management device. ) Is generated, and an OAM frame including this setting information and set to MEG level = 0 is generated and transmitted. In addition, even if the MEP is not set, the remote communication device terminates the OAM frame set to MEG level = 0, and automatically terminates it according to the information included in the received frame. It was decided to change the internal settings of the device. As a result, the MEP can be set in the remote communication device using the OAM frame. Further, by using the OAM frame, the control process can be simplified and the operability can be improved.

Embodiment 2. FIG.
Next, the second embodiment will be described. The configuration of the communication system to which the network device setting method of the present embodiment is applied is the same as that of the first embodiment (see FIG. 1). In the first embodiment, when the MEP is not set, the communication apparatus always terminates the OAM frame with MEG level = 0. However, in the present embodiment, a condition for terminating the OAM frame is further given. .

  That is, in communication apparatus 2B of the present embodiment, as shown in FIG. 4, the format of a VSM (Vendor Specific OAM Message) frame or a VSR (Vendor Specific OAM Reply) frame defined in Ethernet (registered trademark) OAM is used. Only the OAM frame in which the setting values of the OUI (Organizationally Unique Identifier) field and the SubOpCode field included in this frame format match a predetermined unique value (unique code) is terminated, and other OAM frames are, for example, MEG Transmit even if level = 0.

  The operation related to the setting and deletion of MEP is as described with reference to FIGS. 2-1 to 2-3 in the first embodiment, and details of the OAM frame 11 transmitted from the communication apparatus 2A to 2B at the time of MEP setting are implemented. This is different from Form 1.

  FIG. 5 is a flowchart showing a processing flow of the OAM frame termination unit 5 included in the communication device 2B of the second embodiment, and is obtained by changing step S4 of FIG. 3 described in the first embodiment to step S8. .

  That is, as a condition for identifying the frame in step S8 in FIG. 5, not only whether the MEG level of the OAM frame is 0, but also the OpCode field, OUI field, and SubOpCode field included in the received frame are checked. Terminate only those that match the value. Therefore, in the communication device 2A on the transmission side of the OAM frame, the MEG level is set to 0, the OpCode is set to VSM, and an OAM frame in which a unique value (unique code) defined in advance is set in the OUI and SubOpCode. Generate. On the other hand, the OAM frame termination unit 5 of the communication device 2B terminates the frame when the MEG level is 0, the OpCode is VSM, and the OUI and SubOpCode are unique codes defined in advance.

  In the communication system of the first embodiment, when there is another MEP with MEG level = 0, there is a possibility that the communication apparatus 2B terminates the OAM frame with MEG level = 0 addressed to the other apparatus. On the other hand, in the communication system according to the present embodiment, the OAM frame format for MEP setting is defined in detail, and OAM frames other than the OAM frame in which the unique code is set are transmitted even if the MEG level = 0. Therefore, it is possible to prevent the OAM frame that should not be terminated from being terminated.

  Similarly to the first embodiment, when setting / deleting a MEP, there is no need to use an Ethernet (registered trademark) frame other than an OAM frame, and the control process can be simplified because it can be shared with a normal OAM frame process. And operability can be improved.

  In the above description, the unique code is set by using both the OUI and the SubOpCode, but only one of them may be used.

Embodiment 3 FIG.
Next, Embodiment 3 will be described. The configuration of the communication system to which the network device setting method of the present embodiment is applied is the same as that of the first embodiment (see FIG. 1). In the first and second embodiments, when deleting an MEP, an OAM frame having the same MEG level as the MEG level set in the communication apparatus (MEP) is used. However, in this embodiment, both the setting and deletion of the MEP are performed. A control operation when an OAM frame having MEG level = 0 and a special field value is used will be described.

  With reference to FIGS. 6-1 to 6-3, the management apparatus 1 according to the present embodiment is configured to set the MEP to the communication apparatus other than the communication apparatus 2A via the communication apparatus 2A. An operation of returning the communication apparatus to a state where the MEP is not set (releasing the MEP setting) will be described. Here, as an example, an operation for setting the MEP in the communication device 2B and an operation for canceling the MEP setting of the communication device 2B will be described.

  When the MEP is set in the communication device 2B in which the MEP is not set, the management device 1 outputs the MEP setting information including the MEG level information to the communication device 2A and the communication device as in the first embodiment. The communication apparatus 2A is instructed to set the MEP in 2B.

  In the communication device 2A that has received the MEP setting information and instruction from the management device 1, the OAM frame generation unit 4 includes the received MEP setting information and sets the MEG level to the lowest level (MEG level = 0). The OAM frame 11 having the special field value shown in the second embodiment, that is, the MEP setting information received from the management apparatus 1 is included, the MEG level = 0, the OpCode is set to VSM, and the OUI and SubOpCode are defined in advance. The OAM frame 11 in which the unique code is set is generated and transmitted (see FIG. 6A).

  When the communication apparatus 2B receives an OAM frame in which the MEG level = 0, the OpCode is VSM, and the unique code is set in the OUI and the SubOpCode, the communication apparatus 2B terminates it. Then, the information included in the received OAM frame is confirmed, and if the MEP setting information is included, the internal setting is changed based on the information. Thereafter, the processing of Ethernet (registered trademark) OAM of the set MEP is performed. I do.

  When the communication apparatus 2B is operating with the MEP set, when the OAM frame 12 having the same MEG level as the MEG level set for the communication apparatus 2B is received, the communication apparatus 2B terminates the MAM level and sets the MEG higher than the MEG level set for the communication apparatus 2B. The level OAM frame is transmitted (see FIG. 6-2). This operation is the same as in the first and second embodiments.

  In addition, when monitoring of the communication device 2B by the Ethernet (registered trademark) OAM function is unnecessary, when canceling the MEP setting, the management device 1 sends information (release instruction information) for instructing the cancellation of the MEP setting to the communication device 2A. An instruction is issued to cancel the MEP setting of the communication device 2B. However, in this embodiment, it is not necessary to notify the MEG level set in the communication device 2B. In the communication device 2A that has received an instruction from the management device 1, the OAM frame generation unit 4 includes the release instruction information, sets the MEG level = 0, the OpCode to VSM, and sets an OIM and SubOpCode to each unique code. A frame 11 is generated and transmitted (see FIG. 6-3).

  When the communication apparatus 2B receives an OAM frame in which the MEG level = 0, the OpCode is VSM, and the unique code defined in advance in the OUI and the SubOpCode is received, it is terminated. Then, the information contained in the received OAM frame is confirmed, and if the release instruction information for instructing the release of the MEP setting is included, the MEP setting of the own device is released, and the Ethernet (registered trademark) OAM processing is performed. Exit.

  FIG. 7 is a flowchart showing a processing flow of the OAM frame termination unit 5 provided in the communication device 2B of the third embodiment. Step S8 is executed before executing step S3 of FIG. 5 described in the second embodiment. As shown, the processing order is changed. Here, only parts different from the operations described in the second embodiment will be described.

  As a result of executing Step S2, if the received frame is an OAM frame (Step S2, Yes), it is confirmed whether it is a frame to be terminated (Step S8). Specifically, it is confirmed whether the MEG level is 0, OpCode is VSM, and whether OUI and SubOpCode are specified values (unique code). As a result of the confirmation, if it is determined that termination is required (step S8, Yes), the received OAM frame is terminated, and the communication device 2B executes processing according to the content (step S5). For example, if the MEP setting information is included, the internal setting is changed so as to perform Ethernet (registered trademark) OAM processing of the set MEP. If release instruction information is included, the MEP setting is released, and the Ethernet (registered trademark) OAM process is terminated.

  On the other hand, when it is determined that it is not necessary to terminate the received frame (No at Step S8), it is confirmed whether or not MEP is set in the own apparatus (Step S3). If the MEP is not set as a result of the confirmation (step S3, Yes), the received frame is transmitted (step S7). On the other hand, if the MEP is set (step S3, No), step S6 is executed to determine whether or not to terminate the received frame.

  Note that the OAM frame with MEG level = 0 using special fields (OpCode, OUI, SubOpCode) is not only for setting and deleting MEP, but also for alarm status and statistical information notification to the remote communication device 2B, communication device It can also be used for alarm status and statistical information notification instructions for 2B. The processing flow at this time is also the same as in FIG. That is, by performing processing according to the contents of the OAM frame in step S5 in FIG. 7, the above-described state and information notification and state and information notification instruction can be realized.

  Further, since the communication device 2B further includes the OAM frame generation unit 4 and the communication device 2A further includes the OAM frame termination unit 5, the communication device 2B that has received the VSM frame receives the VSR frame as a response. It is possible to transmit to the communication device 2A. Thereby, for example, the VSM frame including the statistical information collection instruction content is transmitted from the communication device 2A to the communication device 2B, and the VSR frame including the statistical information is transmitted from the communication device 2B to the communication device 2A. By doing so, statistical information of the remote device can be collected.

  Further, after physically connecting the communication device 2A and the communication device 2B (using a cable or an optical fiber), the VSM frame of MEG level = 0 is transmitted from the communication device 2A, and the communication device 2B that has received the VSM frame By transmitting the VSR frame to the communication device 2A and confirming the reception of the VSR frame by the communication device 2A, not only the physical (PHY (Physical)) level but also the frame (MAC (Medium Access Control)) level is connected. You can also check the status.

  As described above, in the present embodiment, the MEG level of the OAM frame used for changing the internal setting regardless of whether or not the communication apparatus to be controlled (corresponding to the communication apparatus 2B) is set to MEP. Is set to the lowest level (0) and a special field value is set. As a result, similarly to the second embodiment, it is possible to prevent the OAM frame that should not be terminated originally from being terminated.

  In addition, since the OAM frame with MEG level = 0 in which a special field value is set is always terminated, it is not necessary to determine whether MEP is set, and the processing can be simplified. In addition to setting / deleting MEPs, it can also be used for alarm notification and statistical information collection.

  Also, when setting / deleting MEPs, it is not always necessary to use Ethernet (registered trademark) frames other than OAM frames, and since they can be shared with normal OAM frame processing, control processing can be simplified and operability improved. realizable.

  As described above, the network device setting method according to the present invention is useful for maintenance operation management of an Ethernet (registered trademark) communication system, and is particularly suitable for performing MEP setting / cancellation using an OAM frame. .

It is a figure which shows the structural example of Embodiment 1 of the communication system to which the network device setting method concerning this invention is applied. 6 is a diagram illustrating a network device setting operation according to the first embodiment. FIG. 6 is a diagram illustrating a network device setting operation according to the first embodiment. FIG. 6 is a diagram illustrating a network device setting operation according to the first embodiment. FIG. 4 is a flowchart illustrating a processing flow of an OAM frame termination unit according to the first embodiment. It is a block diagram of an Ethernet (registered trademark) OAM frame. 10 is a flowchart illustrating a processing flow of an OAM frame termination unit according to the second embodiment. FIG. 10 is a diagram illustrating a network device setting operation according to the third embodiment. FIG. 10 is a diagram illustrating a network device setting operation according to the third embodiment. FIG. 10 is a diagram illustrating a network device setting operation according to the third embodiment. 10 is a flowchart illustrating a processing flow of an OAM frame termination unit according to the third embodiment. It is a figure which shows the example of a setting of ME and MEP. It is a figure which shows the structure of PDU of an Ethernet (trademark) OAM frame. It is a figure which shows operation | movement when the apparatus set to MEP receives an Ethernet (trademark) OAM frame. It is a figure which shows the transmission operation | movement of the OAM frame in a PON system. It is a figure for demonstrating a subject.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Management apparatus 2A, 2B Communication apparatus 3 Transmission path 4 OAM frame production | generation part 5 OAM frame termination | terminus part 10, 11, 12, 13, 14 Ethernet (trademark) OAM frame (OAM frame)

Claims (7)

In a communication system that performs maintenance, operation, and management of network devices using the Ethernet (registered trademark) OAM function, the first network device that can directly communicate with the network management device cannot communicate directly with the management device. A network device setting method in the case of performing setting of a possible second network device on behalf of the management device,
The first network device generates an Ethernet (registered trademark) OAM frame including the setting information of the second network device acquired from the management device, and transmits the OAM frame with the MEG level set to the lowest level. A frame transmission step;
When the second network device receives an Ethernet (registered trademark) OAM frame having the lowest MEG level, the second network device terminates the frame and sets the own device according to the setting information included in the received frame. Receiving step;
A network device setting method comprising: In the OAM frame transmission step, the generated Ethernet (registered trademark) OAM frame is further transmitted including a unique code determined in advance with the second network device,
In the OAM frame reception step, when the received frame includes a unique code determined in advance with the first network device, the end of the received frame and the own apparatus are set. The network device setting method according to claim 1.   The network device setting method according to claim 2, wherein the unique code is transmitted using OpCode in an Ethernet (registered trademark) OAM frame and at least one of OUI and SubOpCode.   4. The network device setting method according to claim 1, wherein the setting information is information for setting the second network device to a MEP that is a terminal point of a monitoring section. When the first network device acquires release instruction information for instructing release of the MEP setting of the second network device from the management apparatus, the first network device generates an Ethernet (registered trademark) OAM frame including the release instruction information. A setting cancellation OAM frame transmitting step for setting and transmitting the MEG level to a level corresponding to the MEP setting state of the second network device;
When the second network device receives the MEG level Ethernet (registered trademark) OAM frame corresponding to its own MEP setting state including the release instruction information, it terminates it and cancels its own MEP setting. An OAM frame receiving step for canceling the setting;
The network device setting method according to claim 4, further comprising: When the first network device acquires release instruction information for instructing release of the MEP setting of the second network device from the management apparatus, the first network device generates an Ethernet (registered trademark) OAM frame including the release instruction information. A OAM frame transmission step for canceling the setting for transmitting the MEG level to the lowest level;
The second network device includes an Ethernet (registered trademark) OAM frame including the release instruction information and a unique code determined in advance with the first network device and having the lowest MEG level. If received, terminate it and cancel the MEP setting of its own device,
The network device setting method according to claim 4, further comprising:   The network device setting method according to claim 6, wherein the unique code is transmitted using OpCode in an Ethernet (registered trademark) OAM frame and at least one of OUI and SubOpCode.

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