JP2011223496A - Communication apparatus for ethernet (r) oam frame, oam frame processing method and processing program - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a communication apparatus for Ethernet (R) OAM frames that reduces traffic by utilizing joined Ethernet (R) OAM frames while preventing increase in load caused by unnecessary processing on OAM frames, an OAM frame processing method and a processing program.SOLUTION: A received-frame determining means 11 determines if a frame received is addressed to its own device. If the frame is addressed to the device, an independent frame processing execution means 14 executes processing indicated by the frame. A passing frame sending means 15 sends a frame which has been determined not to be addressed to the device by the receiving frame determining means 11 to a next destination as it is.

Description

  The present invention relates to an OAM frame communication apparatus using an Ethernet (registered trademark) -OAM frame, an Ethernet (registered trademark) -OAM frame processing method, and an Ethernet (registered trademark) -OAM frame processing program.

  A function for managing and maintaining a communication network is called OAM (operations, administration, maintenance). Ethernet (registered trademark) -OAM is a function for managing and maintaining an Ethernet (registered trademark) network.

  In recent years, with the enormous increase in traffic, the network configuration of service providers has increased in scale. A service provider needs to always provide a stable service to a subscriber. For this reason, operation, maintenance, and management of each connection line constituting the network are performed remotely.

  Apart from this, there is a movement to make all communications IP (Internet Protocol). However, the layer 2 switch lacks reliability. Therefore, OAM conversion was performed for the Ethernet (registered trademark) network. ITU-T (International Telecommunication Union Telecommunication Standardization Sector) 1731 and IEEE (Institute of Electrical and Electronic Engineers) 802.1ag define various Ethernet (registered trademark) -OAM frames.

  For example, a frame having a fault management function called an Ethernet (registered trademark) CC (Continuity Check) frame is defined as an Ethernet (registered trademark) -OAM frame for checking whether a communication network up to a connection destination is continuously connected. Yes. When a frame is sent to the connection destination, an Ethernet (registered trademark) LB (Loop back) frame that checks whether this frame has returned to the transmission source, or an Ethernet (registered trademark) LT (link) that performs a frame acknowledgment at each switch trace) frames are also specified. Such Ethernet (registered trademark) -OAM frames tend to increase as OAM functions are added.

  In general, as the types of Ethernet (registered trademark) -OAM frames increase, the network management and maintenance functions are enhanced accordingly. However, on the other hand, a plurality of Ethernet (registered trademark) -OAM frames frequently come and go on the network. As a result, (1) a problem occurs that the load on the input / output port of the communication device increases. Also, (2) the amount of traffic will increase. In particular, in the Ethernet (registered trademark) CC, since frames are sent at regular intervals, the amount of traffic also becomes enormous. As described above, when the Ethernet (registered trademark) -OAM function is used in combination, there is a problem that the bandwidth is significantly consumed by itself.

  Combining (aggregating) ordinary Ethernet (registered trademark) packets for network management and maintenance has been proposed as a first related technique of the present invention (see, for example, Patent Document 1). In the first related technique, only when the feedback information for the communication partner apparatus is not included, a MAC (Media Access Control) frame including transmission data in the payload is aggregated with another MAC frame and transmitted as a combined frame. . By using this related technology, by combining packets, it is possible to reduce the load at the input / output port of the communication apparatus and reduce the traffic.

  However, when the Ethernet (registered trademark) -OAM frame is simply combined and transmitted to the communication network, the communication apparatus determines this as one frame. As a result, it is not possible to realize a function for performing management and maintenance as individual OAM frames.

  In view of this, the present inventor, in the case where the received OAM frame is a combined Ethernet (registered trademark) -OAM frame in which a plurality of OAM functions are combined, divides the communication device into a single Ethernet (registered trademark) -OAM frame. Proposed as a related technology.

JP 2009-147786 A (paragraph 0035, FIG. 5)

  According to the second related technique, when the received OAM frame is a combined Ethernet-OAM frame, the communication apparatus divides it into a single Ethernet-OAM frame. Therefore, it is possible to reduce traffic by reducing the number of OAM frames that have conventionally been transmitted as a plurality of OAM frames.

  In the second related technology, a communication device that has received the combined Ethernet (registered trademark) -OAM frame combines the single Ethernet (registered trademark) -OAM frame obtained by dividing the frame into the next communication device. Enabled to send. As a result, when the combined Ethernet (registered trademark) -OAM frame is successively transmitted to each communication device constituting the communication network, efficient communication is possible between the communication devices.

  By the way, when receiving each combined Ethernet (registered trademark) -OAM frame, each communication device constituting the communication network selects and uses an OAM frame necessary for the own device from among a plurality of divided OAM frames. For this reason, depending on the communication apparatus, there may be no OAM frame to be used in the received combined Ethernet (registered trademark) -OAM frame.

  However, according to the second related technology, each communication apparatus employs a method of always dividing a received Ethernet-registered OAM frame into individual OAM frames. For this reason, a communication device that has received a combined Ethernet (registered trademark) -OAM frame composed only of OAM frames that are not used by the own device performs a wasteful process of division compared to the case of receiving a single OAM frame. is what happened. In this case, the communication apparatus not only does not use the divided single OAM frame, but also combines the combined Ethernet (registered trademark) -OAM frame and transmits it to the transmission path for reducing traffic. There was a need. Therefore, there is a problem that the load on the input / output port of the communication apparatus becomes larger than when a single OAM frame is input / output.

  Therefore, an object of the present invention is to reduce the traffic by using a combined Ethernet (registered trademark) -OAM frame and prevent an increase in load due to processing to an unnecessary OAM frame. An apparatus, an OAM frame processing method, and a processing program are provided.

  In the present invention, (a) received frame discrimination means for discriminating whether a frame received via a communication network is an Ethernet (registered trademark) -OAM (operations, administration, maintenance) frame addressed to the own device; The received frame determining means determines that the frame determined to be an Ethernet (registered trademark) -OAM frame addressed to its own device is a single Ethernet (registered trademark) -OAM frame having a single OAM function, or a plurality of frames. OAM frame form discriminating means for discriminating whether it is a combined Ethernet (registered trademark) -OAM frame combined with an OAM function; When this occurs, a single Ethernet (registered trademark) -OAM frame necessary for the device is generated. Single Ethernet (registered trademark) -OAM frame generating means and (d) Single Ethernet (registered trademark) -OAM frame generated by the single Ethernet (registered trademark) -OAM frame generating means or the OAM frame described above Single frame processing content execution means for executing the processing content indicated by the frame determined to be a single Ethernet (registered trademark) -OAM frame by the shape determination means; and (e) the received frame determination means described above is addressed to the own apparatus. The Ethernet (registered trademark) -OAM frame communication device includes a passing frame transmitting unit that directly transmits a frame determined not to be an Ethernet (registered trademark) -OAM frame to a next transmission destination.

  In the present invention, (a) a received frame determining step for determining whether a frame received via a communication network is an Ethernet (registered trademark) -OAM (operations, administration, maintenance) frame addressed to the device; B) Whether the frame determined to be the Ethernet (registered trademark) -OAM frame addressed to the own device in this received frame determining step is a single Ethernet (registered trademark) -OAM frame having a single OAM function, An OAM frame form determining step for determining whether the frame is a combined Ethernet (registered trademark) -OAM frame obtained by combining a plurality of OAM functions, and (c) a combined Ethernet (registered trademark) -OAM frame in the OAM frame form determining step. Single Ethernet (registered trademark) that is necessary for the device Single Ethernet (registered trademark) -OAM frame generating step for generating an OAM frame, and (d) Single Ethernet (registered trademark) -OAM frame generated by the single Ethernet (registered trademark) -OAM frame generating step Alternatively, a single frame processing content execution step for executing the processing content indicated by the frame determined to be a single Ethernet (registered trademark) -OAM frame by the OAM frame form determination means, and (e) the received frame determination step described above. The Ethernet (registered trademark) -OAM frame processing method includes a passing frame transmission step of transmitting a frame determined not to be an Ethernet (registered trademark) -OAM frame addressed to the own device to the next transmission destination as it is.

  Further, according to the present invention, the Ethernet (registered trademark) -OAM frame processing program is transmitted to the computer as follows: (a) The Ethernet (registered trademark) -OAM (operations, administration, maintenance) addressed to the local device is received via the communication network. (B) a frame that is determined to be an Ethernet (registered trademark) -OAM frame addressed to itself by the received frame determination process has a single OAM function. OAM frame form determination processing for determining whether it is a single Ethernet (registered trademark) -OAM frame or a combined Ethernet (registered trademark) -OAM frame in which a plurality of OAM functions are combined, and (c) the OAM frame form Discriminated as a combined Ethernet (registered trademark) -OAM frame by discrimination processing A single Ethernet (registered trademark) -OAM frame generation process for generating a single Ethernet (registered trademark) -OAM frame necessary for the device, and (d) generation of the single Ethernet (registered trademark) -OAM frame. A single Ethernet (registered trademark) -OAM frame after it has been generated by the processing or a single that executes the processing content indicated by the frame determined to be a single Ethernet (registered trademark) -OAM frame by the OAM frame form determining means described above Frame processing content execution processing, and (e) a passing frame transmission processing for transmitting a frame that is determined not to be an Ethernet (registered trademark) -OAM frame addressed to its own device in the received frame determination processing to the next transmission destination as it is. Let it run.

  As described above, according to the present invention, it is determined whether the received frame is an Ethernet (registered trademark) -OAM frame addressed to the own device. If the received frame is not addressed to the own device, the frame is directly transmitted to the next transmission destination. Decided to do. As a result, even if the Ethernet (registered trademark) -OAM frame is a combined Ethernet (registered trademark) -OAM frame in which a plurality of OAM functions are combined, if it is not addressed to the own device, a single one is generated in the own device. The processing for returning to a single Ethernet (registered trademark) -OAM frame having the OAM function is unnecessary, and the processing load of the own apparatus can be reduced. On the other hand, the combined Ethernet (registered trademark) -OAM frame is processed, thereby reducing the amount of traffic on the communication network compared to the case where only a single Ethernet (registered trademark) -OAM frame is input / output. Bandwidth can be used effectively.

It is a claim corresponding | compatible figure of the communication apparatus for Ethernet (trademark) -OAM frames of this invention. It is a claim corresponding | compatible figure of the Ethernet (trademark) -OAM frame processing method of this invention. It is a claim correspondence diagram of the Ethernet (registered trademark) -OAM frame processing program of the present invention. 1 is a system configuration diagram illustrating a basic configuration of a communication system according to a first exemplary embodiment of the present invention. It is a block diagram showing the outline | summary of the structure of the 2nd frame coupling | bonding communication apparatus in this Embodiment. It is explanatory drawing showing the structure of the single OAM frame used as the object of reception in this Embodiment. It is explanatory drawing showing the structure of the joint OAM frame used as the object of reception in this Embodiment. FIG. 6 is a block diagram illustrating a specific configuration of an Ethernet (registered trademark) -OAM frame coupling unit illustrated in FIG. 5. FIG. 6 is a block diagram illustrating a specific configuration of an Ethernet (registered trademark) -OAM frame division unit illustrated in FIG. 5. It is a flowchart showing the mode of the setting process regarding the coupling | bonding conditions of an Ethernet (trademark) -OAM frame coupling | bond part in this Embodiment. 4 is a flowchart showing a state of frame combination processing by an Ethernet (registered trademark) -OAM frame combination unit in the present embodiment. It is a flowchart showing the mode of the frame determination designation | designated process in the received frame determination part of this Embodiment. It is a flowchart showing the mode of the analysis process in the received frame determination part of this Embodiment. It is the flowchart showing the mode of processing of the Ethernet (registered trademark) -OAM frame division unit in the present embodiment. It is a block diagram showing the structure of the 2nd frame joint communication apparatus in the modification of this invention. It is explanatory drawing showing the structure of the joint OAM frame used as the object of reception in this modification. It is the flowchart showing the mode of processing of the Ethernet (trademark) -OAM frame extraction part in this modification.

  FIG. 1 is a diagram corresponding to claims of an Ethernet (registered trademark) -OAM (operations, administration, maintenance) frame communication apparatus according to the present invention. The communication device 10 for Ethernet (registered trademark) -OAM frame of the present invention includes a received frame determining unit 11, an OAM frame form determining unit 12, a single Ethernet (registered trademark) -OAM frame generating unit 13, and a single frame. Processing content execution means 14 and passing frame transmission means 15 are provided. Here, the received frame determining means 11 determines whether the frame received via the communication network is an Ethernet (registered trademark) -OAM frame addressed to the own apparatus. The OAM frame form determination unit 12 determines which of the next OAM frames is the frame determined to be an Ethernet (registered trademark) -OAM frame addressed to the own apparatus. That is, it is determined whether the frame is a single Ethernet (registered trademark) -OAM frame having a single OAM function or a combined Ethernet (registered trademark) -OAM frame in which a plurality of OAM functions are combined. When the single Ethernet (registered trademark) -OAM frame generation means 13 determines that the combined Ethernet (registered trademark) -OAM frame is the combined Ethernet (registered trademark) -OAM frame by the OAM frame form determination means 12, the single Ethernet (registered trademark) necessary for the device itself -Generate an OAM frame. The single frame processing content execution means 14 is a single Ethernet (registered trademark) -OAM frame generation means 13 after the single Ethernet (registered trademark) -OAM frame generation means 13 generates a single Ethernet ( The processing content indicated by the frame determined to be a registered trademark-OAM frame is executed. The passing frame transmitting unit 15 transmits the frame determined by the received frame determining unit 11 that is not an Ethernet (registered trademark) -OAM frame addressed to itself to the next transmission destination as it is.

  FIG. 2 shows a claim correspondence diagram of the Ethernet (registered trademark) -OAM (operations, administration, maintenance) frame processing method of the present invention. The Ethernet (registered trademark) -OAM frame processing method 20 of the present invention includes a received frame determining step 21, an OAM frame form determining step 22, a single Ethernet (registered trademark) -OAM frame generating step 23, and a single frame processing. A content execution step 24 and a passing frame transmission step 25 are provided. Here, in the received frame determination step 21, it is determined whether the frame received via the communication network is an Ethernet (registered trademark) -OAM frame addressed to the own apparatus. In the OAM frame form determination step 22, it is determined which of the next OAM frames the frame determined to be the Ethernet (registered trademark) -OAM frame addressed to the own apparatus in the reception frame determination step 21 is. That is, it is determined whether the frame is a single Ethernet (registered trademark) -OAM frame having a single OAM function or a combined Ethernet (registered trademark) -OAM frame in which a plurality of OAM functions are combined. In the single Ethernet (registered trademark) -OAM frame generation step 23, when it is determined in the OAM frame form determination step 22 that it is a combined Ethernet (registered trademark) -OAM frame, a single Ethernet (registered trademark) necessary for the own apparatus will be used. -Generate an OAM frame. In the single frame processing content execution step 24, the single Ethernet (registered trademark) -OAM frame generation step 23 after the single Ethernet (registered trademark) -OAM frame generation step 23 generates a single Ethernet ( The processing content indicated by the frame determined to be a registered trademark-OAM frame is executed. In the passing frame transmitting step 25, the frame determined not to be the Ethernet (registered trademark) -OAM frame addressed to the own apparatus in the received frame determining step 21 is transmitted as it is to the next transmission destination.

  FIG. 3 is a diagram corresponding to claims of the Ethernet (registered trademark) -OAM (operations, administration, maintenance) frame processing program of the present invention. The Ethernet (registered trademark) -OAM frame processing program 30 of the present invention includes a computer for receiving frame discrimination processing 31, OAM frame form discrimination processing 32, single Ethernet (registered trademark) -OAM frame generation processing 33, and simple processing. One frame processing content execution processing 34 and passing frame transmission processing 35 are executed. Here, in the received frame determination process 31, it is determined whether the frame received via the communication network is an Ethernet (registered trademark) -OAM frame addressed to the own apparatus. In the OAM frame form determination process 32, it is determined which of the next OAM frames the frame determined to be the Ethernet (registered trademark) -OAM frame addressed to the own apparatus in the received frame determination process 31 is. That is, it is determined whether the frame is a single Ethernet (registered trademark) -OAM frame having a single OAM function or a combined Ethernet (registered trademark) -OAM frame in which a plurality of OAM functions are combined. In the single Ethernet (registered trademark) -OAM frame generation processing 33, when it is determined that the combined Ethernet (registered trademark) -OAM frame is obtained in the OAM frame form determination processing 32, the single Ethernet (registered trademark) necessary for the apparatus from now on is determined. -Generate an OAM frame. In the single frame processing content execution processing 34, the single Ethernet (registered trademark) -OAM frame generation processing 33 after the single Ethernet (registered trademark) -OAM frame generation processing 33 generates a single Ethernet ( The processing content indicated by the frame determined to be a registered trademark-OAM frame is executed. In the passing frame transmission process 35, the frame determined not to be the Ethernet (registered trademark) -OAM frame addressed to the own apparatus in the reception frame determination process 31 is transmitted as it is to the next transmission destination.

  <First Embodiment of the Invention>

  Next, a first embodiment of the present invention will be described.

  FIG. 4 shows the basic configuration of the communication system according to the first embodiment of the present invention. It is assumed that first to third Ethernet (registered trademark) -OAM frame communication devices (hereinafter abbreviated as frame-coupled communication devices) 101 to 103 are arranged on the communication network 100. It is assumed that the first frame combined communication apparatus 101 sends an Ethernet (registered trademark) frame 111 to the third frame combined communication apparatus 103 via the second frame combined communication apparatus 102.

  The Ethernet (registered trademark) frame 111 may be a normal single Ethernet (registered trademark) -OAM frame (hereinafter, simply referred to as a single OAM frame), or substantially a single OAM frame. Or a combined Ethernet (registered trademark) -OAM frame (hereinafter simply referred to as a combined OAM frame). In addition, there may be a normal Ethernet (registered trademark) frame other than the Ethernet (registered trademark) -OAM frame.

The first frame combined communication apparatus 101 may create a combined OAM frame by itself, or may receive the combined OAM frame from another apparatus (not shown) and transfer the combined OAM frame. Transmission paths 112 ₁ and 112 ₂ forming an Ethernet (registered trademark) network are arranged between the first to third frame combination communication apparatuses 101 to 103.

  By the way, when the Ethernet (registered trademark) frame 111 is a combined OAM frame, for example, single OAM frames 121 to 123 are combined into one frame. In the case of the example shown in FIG. 4, when the second frame combined communication device 102 receives a specific Ethernet (registered trademark) frame 111 that is a combined OAM frame, a single OAM frame required by the device itself is received. If it is not included, it is passed without being divided.

  An Ethernet (registered trademark) frame 111 as a combined OAM frame sent out from the second frame combined communication apparatus 102 is sent to the third frame combined communication apparatus 103. The third frame combination communication apparatus 103 divides the received Ethernet (registered trademark) frame 111 if a single OAM frame required by the third apparatus is included. Then, corresponding single OAM frames 121 to 123 are transmitted to the subordinate communication devices 104 to 106, respectively.

  As described above, in the communication system 100 according to the present embodiment, when the device exemplified as the second frame combined communication device 102 receives the specific combined OAM frame as the Ethernet (registered trademark) frame 111, the own device needs it. If no single OAM frame is included, the Ethernet (registered trademark) frame 111 is not divided. When the second frame combined communication apparatus 102 receives other combined OAM frames as the Ethernet (registered trademark) frame 111, the second frame combined communication apparatus 102 performs processing for dividing the frame into single OAM frames. In this case, the divided single OAM frames 121 to 123 are combined again and transmitted to the third frame combination communication apparatus 103 as the Ethernet (registered trademark) frame 111.

As described above, when the second or third frame combination communication device 103 ₂ , 103 ₃ used in the present embodiment receives the Ethernet (registered trademark) frame 111, it is determined whether this is a single OAM frame. It is determined whether the frame is an OAM frame. If it is a combined OAM frame, if a single OAM frame required by its own device is included, a process of dividing the combined OAM frame into a single OAM frame is performed. If the Ethernet (registered trademark) frame 111 does not include a single OAM frame required by the own device, the combined OAM frame is directly transmitted to the next communication device without dividing the Ethernet (registered trademark) frame 111. Process to transfer.

  FIG. 5 shows an outline of the configuration of the second frame combined communication apparatus. The first frame combined communication apparatus 101 and the third frame combined communication apparatus 103 shown in FIG. 4 have basically the same configuration as the second frame combined communication apparatus 102. Therefore, illustration and description of specific configurations of the first and third frame combination communication apparatuses 101 and 103 are omitted. This will be described together with FIG.

The second frame combination communication device 102 includes a received frame determination unit 131. The reception frame determination unit 131 receives the Ethernet (registered trademark) frame 111 that is transmitted through the transmission path 112 ₁ .

The received frame determination unit 131 analyzes whether the received Ethernet (registered trademark) frame 111 is one of the following (1) to (4), and sorts and outputs these according to the analysis result. However, in the present embodiment, the normal frame 132 and the specific Ethernet (registered trademark) frame 111 (hereinafter referred to as a set OAM frame 133) are output from the same route.
(1) Normal frame 132
(2) Setting OAM frame 133
(3) Combined OAM frame 134
(4) Single OAM frame 135

Here, the normal frame 132 refers to a frame other than the OAM frame. The set OAM frame 133 is an OAM frame set in the first frame combined communication apparatus 101 (FIG. 4), for example, “pass processing is performed in a frame combined communication apparatus other than the destination frame combined communication apparatus”. Since the destination of the set OAM frame 133 in this example is the third frame combined communication apparatus 103, when the second frame combined communication apparatus 102 receives the set OAM frame 133, it is not the set OAM frame 133 addressed to the own apparatus. Therefore, the reception frame determination unit 131 sends the set OAM frame 133 as it is to the transmission path 112 ₂ . The single OAM frame 135 is a single Ethernet (registered trademark) -OAM frame. The combined OAM frame 134 is a combined Ethernet (registered trademark) -OAM frame in which a plurality of single OAM frames 135 are combined.

Of course, in the Ethernet (registered trademark) frame, the destination of the frame is designated as the destination MAC address. Therefore, for example, if the second frame combined communication apparatus 102 is not designated as the destination MAC address of the OAM frame received by the second frame combined communication apparatus 102, the second frame combined communication apparatus 102 passes this process. and it sends this to the transmission line 112 ₂ and. Therefore, the received frame in such a case may be determined as the set OAM frame 133.

In the receiving frame determination unit 131 is determined as a normal frame 132 or set OAM frame 133 Ethernet frame 111 is sent directly to the transmission line 112 ₂ shown in FIG. The Ethernet (registered trademark) frame 111 determined as the combined OAM frame 134 by the reception frame determining unit 131 is sent to the Ethernet (registered trademark) -OAM frame dividing unit 136 where it is divided into single OAM frames. The divided single OAM frame 137 is input to the Ethernet (registered trademark) -OAM frame processing unit 138.

  The Ethernet (registered trademark) frame 111 determined as the single OAM frame 135 by the reception frame determination unit 131 is input to the Ethernet (registered trademark) -OAM frame processing unit 138. The Ethernet (registered trademark) -OAM frame processing unit 138 reads a data portion described later in the input single OAM frame 135, 137. In accordance with this content, predetermined management or maintenance processing as Ethernet (registered trademark) -OAM is executed. Further, an Ethernet (registered trademark) -OAM frame for executing the Ethernet (registered trademark) -OAM function is newly generated. The processed single OAM frame 139 is input to the Ethernet (registered trademark) -OAM frame combining unit 141.

  The Ethernet (registered trademark) -OAM frame combining unit 141 receives the frame generated by the Ethernet (registered trademark) -OAM frame processing unit 138. The Ethernet (registered trademark) -OAM frame combination unit 141 determines a combination condition of the received Ethernet (registered trademark) -OAM frame, and then combines frames that satisfy the condition. The combined frame is transmitted as a combined OAM frame 142 from the Ethernet (registered trademark) -OAM frame combining unit 141. A frame that does not satisfy the combining condition is similarly transmitted as a single OAM frame 143 from the Ethernet (registered trademark) -OAM frame combining unit 141.

  The Ethernet (registered trademark) -OAM frame combining unit 141 does not target the setting OAM frame 133 described above. As described above, in this embodiment, even the combined OAM frame other than the single OAM frame is allowed to pass through the second frame combined communication apparatus 102 without being divided by the Ethernet (registered trademark) -OAM frame dividing unit 136. Can do. As a result, it becomes possible to control traffic in the communication network 100 shown in FIG.

  The second frame coupled communication apparatus 102 configured as described above has a control unit 148 including a CPU (Central Processing Unit) 146 and a memory 147 storing a predetermined control program. At least a part of each unit such as the received frame determination unit 131 in the second frame coupling communication device 102 may be realized by software by the CPU 146 executing a control program stored in the memory 147. Good.

  By the way, the OAM frame transmitted through the communication network 100 according to the present embodiment is roughly divided into a combined OAM frame 134 and a single OAM frame 135 by the reception frame determination unit 131. Therefore, the difference in configuration between the combined OAM frame 134 and the single OAM frame 135 will be described next.

  FIG. 6 shows the configuration of a single OAM frame to be received in this embodiment. The single OAM frame 135 shown in FIG. 5 has the same configuration as the conventionally used OAM frame.

  The single OAM frame 135 includes a destination MAC address, a transmission source MAC address, Ethernet (registered trademark) TYPE, a data part, and an FCS (Frame Check Sequence). This configuration itself is the same as a normal Ethernet (registered trademark) frame. Ethernet (registered trademark) TYPE is number information for identifying an upper layer protocol. By checking the value of this Ethernet (registered trademark) TYPE, the received frame determination unit 131 shown in FIG. 5 determines whether the received Ethernet (registered trademark) frame 111 is a combined OAM frame or a normal frame as another frame. Can be determined.

  The data part is composed of MA LEVEL, Version, OpCode (Operation Code), Flags, TLV Offset (TYPE / Length / Value Offset), TLV (TYPE / Length / Value), and End TLV. Of these, “Version” is an International Telecommunication Union Telecommunication Standardization Sector (ITUT) standard and is always “0”.

  FIG. 7 shows the structure of a combined OAM frame to be received in this embodiment. The combined OAM frame 134 also includes a destination MAC address, a transmission source MAC address, Ethernet (registered trademark) TYPE, a data part, and an FCS.

Compared with the single OAM frame 135 of FIG. 6, a combination TYPE portion and a combination DATA portion are added to the data portion of the combined OAM frame 134. Combination in the DATA part The first to nth small data parts 151 _{1 to} 151 _n are sequentially arranged in the remaining area of the DATA part.

  The Combination TYPE portion does not exist in the data portion of the single OAM frame 135 (FIG. 6), and is unique to the combined OAM frame 134. Therefore, the Combination TYPE unit is used to determine whether the Ethernet (registered trademark) -OAM frame is combined.

The combination DATA section indicates the contents of data such as the number of combined frames. In the present embodiment, it indicates that the data of n single OAM frame 135 by the Combination DATA section is incorporated as a small data unit 151 ₁ ~151 _n of first through n. As a result, n data portions (FIG. 6) of the single OAM frame 135 can be combined, and these Ethernet (registered trademark) -OAM functions can be integrated.

The first to nth small data portions 151 _{1 to} 151 _n have the same configuration as the data portion of the single OAM frame 135 shown in FIG. For example, the first small data portion 151 ₁ is composed of MA LEVEL (1), Version (1), OpCode (1), Flags (1), TLV Offset (1), TLV (1), and End TLV (1). Is done.

  Of these, “Version” is always “0” in the ITUT standard in the case of the single OAM frame 135 shown in FIG. 6, but other than this in the case of the combined OAM frame 134 in FIG. 7. It is the value of. Therefore, it is possible to identify whether the frame is a combined frame or a single frame by checking “Version”.

  FIG. 8 shows a specific configuration of the Ethernet (registered trademark) -OAM frame combination unit shown in FIG. The Ethernet (registered trademark) -OAM frame combination unit 141 inputs a single OAM frame 139 and receives the destination MAC address, the source MAC address, the VLAN (Virtual Local Area Network) tag, the TYPE, and the data indicated in the data part. A reading unit 161 for reading such information is provided. The reading result 162 of the reading unit 161 is input to the memory unit 164 and stored in addition to being sent to the combination specifying unit 163.

  The combining specifying unit 163 performs frame combining processing based on the specified combining conditions for the destination MAC address, transmission source MAC address, VLAN tag, TYPE, data, maximum number of connections, and maximum frame length in the received single OAM frame 139. Is specified. For example, in the Ethernet (registered trademark) -OAM test, the conditions for coupling such as coupling of Ethernet (registered trademark) -CC (Continuity Check) and Ethernet (registered trademark) -APS (Automatic Protection Switching) are set. specify. If there is a designation of coupling, the coupling designation condition is held in the memory unit 164.

  The reading unit 161 confirms the combination designation condition held in the memory unit 164 and the content of the received frame. As a result, when the join designation condition is met, the combination DATA part in FIG. 7 is rewritten and transmitted to the join designation part 163. For example, the combination DATA part at the time of reception is all “0”. The upper 1 byte of the 2-byte configuration DATA section indicates the maximum number of combinations and the maximum frame length, and the lower 1 byte indicates a combination designation condition.

  If the Combination DATA portion of the Ethernet (registered trademark) -OAM frame sent from the reading portion 161 has been rewritten, the OAM frame is held in the memory portion 164. If the Combination DATA part is not rewritten, it is transmitted as a single frame as it is. The writing unit 165 confirms the joint designation conditions such as the joint designation conditions of the frames held in the memory unit 164, the maximum number of joins and the maximum frame length, the joint head frame, the joint end frame, and the like, and performs the joint processing.

  FIG. 9 shows a specific configuration of the Ethernet (registered trademark) -OAM frame division unit shown in FIG. The Ethernet (registered trademark) -OAM frame division unit 136 includes an analysis unit 171 that inputs the combined OAM frame 134. The analysis unit 171 reads the combination data unit of the received Ethernet (registered trademark) -OAM combined frame and holds this information in a memory (not shown) inside.

The division unit 172 reads the information held in the analysis unit 171 and performs division processing in units of the _first to nth small data units 151 _{1 to} 151 _n . The divided single OAM frame 137 is transmitted from the dividing unit 172 to the Ethernet (registered trademark) -OAM frame processing unit 138 shown in FIG.

  The configuration of the second frame combination communication device 102 has been described above. The configurations of the Ethernet (registered trademark) -OAM frame processing unit 138 shown in FIG. 5 and the single OAM frame 135 shown in FIG. 6 are well known by those skilled in the art. In addition, there are no points to be specifically described in understanding the characteristics of the first to third frame coupled communication apparatuses 101 to 103 and the communication network 100 using these in the present embodiment. Therefore, a specific description of the Ethernet (registered trademark) -OAM frame processing unit 138 and the single OAM frame 135 is omitted.

  FIG. 10 shows a setting process related to the coupling condition of the Ethernet (registered trademark) -OAM frame coupling unit. This will be described with reference to FIGS.

  The Ethernet (registered trademark) -OAM frame combination unit 141 designates a combination condition according to the characteristics of the individual frame combination communication apparatuses 101 to 103 shown in FIG. 4 (step S201). Here, the second frame combination communication device 102 will be described as an example. The coupling condition of the second frame coupled communication apparatus 102 may be specified at the time of shipment from the factory, or by an administrator who manages or maintains the communication network 100 operating the second frame coupled communication apparatus 102. May be.

  In the join condition designation process in step S201, the join conditions for the destination MAC address, source MAC address, VLAN tag, TYPE, DATA, maximum number of joins, and maximum frame length of the Ethernet (registered trademark) -OAM frame to be joined are designated. This is specified in the part 163. When the maximum frame length is specified, the number of combined OAM frames is limited in relation to the frame length.

  When the designation regarding the join condition is completed (step S202: Y), the join designation unit 163 holds the designated condition content in the memory unit 164 (step S203). As a result, the join condition designation process ends (END).

  FIG. 11 shows a state of frame combination processing by the Ethernet (registered trademark) -OAM frame combination unit. This will be described with reference to FIGS.

  The Ethernet (registered trademark) -OAM frame combining unit 141 waits for a single OAM frame 139 to be sent from the Ethernet (registered trademark) -OAM frame processing unit 138 (step S221). When a single OAM frame 139 is received (Y), the reading unit 161 reads information such as the destination MAC address, transmission source MAC address, VLAN tag, TYPE, and data shown in the data portion of this frame, and confirms these contents. (Step S222).

  Next, the reading unit 161 compares the read information with the contents of the combining condition held in the memory unit 164, and determines whether the received single OAM frame 139 is the specified combining target ( Step S223). As a result, when it is determined that the single OAM frame 139 is not a frame to be combined (N), this single OAM frame 139 is transmitted as a single OAM frame 143 without any processing (step S224). . Thereafter, the process returns to the reception standby state in step S221 (return).

  On the other hand, when the reading unit 161 determines that the single OAM frame 139 received this time is a frame to be combined (step S223: Y), the reading unit 161 holds data regarding this frame in the memory unit 164 (step S225). Then, it is checked whether the data relating to the held single OAM frame 139 and another frame to be combined already exist in the memory unit 164 (step S226).

  When there is no other frame to be combined in the memory unit 164, that is, when the first frame related to combining is received (step S226: N), the upper limit value of frame combining has not been reached (step S226). S227: N). Therefore, in this case, the process returns to step S221 without performing the frame combining process and waits for reception of the next single OAM frame 139 (return).

  On the other hand, if there is another frame to be combined in the memory unit 164 (step S226: Y), the target “other frame” is read (step S228). Then, the single OAM frame 139 currently held in the memory in step S225 and the “other frame” read now are combined (step S229). Here, “another frame” is not necessarily a single OAM frame, but may be a combination of a plurality of single OAM frames.

  Next, it is determined whether or not the frame combined in step S229 has reached the upper limit value of frame combination in the combination condition designated in step S201 of FIG. 10 (step S227). If the upper limit value has not been reached (N), it is more efficient to wait for the reception of the single OAM frame 139 and combine the frames. Therefore, in this case (step S227: N), the process returns to step S221 again to wait for reception of the next single OAM frame 139 (return).

  On the other hand, when the frame combined in step S229 reaches the upper limit of combination (step S227: Y), no further combination can be performed. Therefore, the frame combined in step S228 is transmitted as the combined OAM frame 142 from the Ethernet (registered trademark) -OAM frame combining unit 141 (step S230). Thereafter, the process returns to step S221 to wait for reception of the next single OAM frame 139 (return).

  FIG. 12 shows the state of the frame determination designation process in the received frame determination unit. The second frame combination communication apparatus 102 shown in FIG. 4 will be described as an example with reference to FIG. 4 and FIG.

  The reception frame determination unit 131 analyzes the received Ethernet (registered trademark) frame 111 as described above, determines these into several types, and switches the output path according to the determination result. For this reason, it is necessary to specify the determination contents in advance. Therefore, the system administrator of the communication network 100 or the operator of the second frame coupled communication apparatus 102 designates the determination condition of the received frame determination unit 131 in advance (step S241). Specifically, for the Ethernet (registered trademark) -OAM frame, transmission of the Ethernet (registered trademark) frame 111 is performed for each determination target determined by a combination of a destination MAC address, a transmission source MAC address, a VLAN tag, TYPE, DATA, and the like. Specify processing.

  Even the combined OAM frame 134 may be a set OAM frame 133 transmitted through the second frame combined communication device 102 to another frame combined communication device. Such a set OAM frame 133 can be individually specified in step S241.

  When the designation by the system administrator or operator is completed (step S242: Y), the contents of the designated condition are held in a predetermined storage area such as the memory 147 (step S243). In the case of the combination designation condition, it may be held in the memory unit 164. When the storage of the specified content is completed in this way, the frame determination specifying process of the received frame determination unit ends (END).

  FIG. 13 shows the state of analysis processing by the received frame determination unit. This will be described with reference to FIGS.

  The reception frame determination unit 131 waits for the Ethernet (registered trademark) frame 111 (step S261). When a frame is received (Y), it is determined whether this is an OAM frame (step S262). When it is determined that the frame is an OAM frame (Y), the reception frame determination unit 131 checks whether this is the set OAM frame 133 (step S263).

If the Ethernet frame 111 is a set OAM frame 133 (step S263: Y), is transmitted to a transmission line 112 ₂ it from the second frame coupled communication device 102 (step S264). That is, the Ethernet (registered trademark) frame 111 is output as the setting OAM frame 133 without any processing. Then, the reception frame determination unit 131 returns to step S261 and waits for reception of the next Ethernet (registered trademark) frame 111 (return).

  On the other hand, when it is determined in step S263 that the frame is different from the set OAM frame 133 (N), the reception frame determination unit 131 checks whether the combination TYPE unit is present in the data portion of the frame (step S265). The single OAM frame 135 in FIG. 6 does not have a combination type part, and the combined OAM frame 134 in FIG. 7 has this. Therefore, when the Combination TYPE unit exists (Y), the received frame determination unit 131 determines that the Ethernet (registered trademark) frame 111 is the combined OAM frame 134. Therefore, the reception frame determination unit 131 transmits the combined OAM frame 134 to the Ethernet (registered trademark) -OAM frame division unit 136 (step S266). Then, the received frame determination unit 131 returns the process to step S261 (return).

  On the other hand, when the reception frame determination unit 131 determines that the combination type unit does not exist in the Ethernet (registered trademark) frame 111 (step S265: N), the reception frame determination unit 131 determines that the Ethernet (registered trademark) frame 111 does not include the combination type unit. Is determined to be a single OAM frame 135. Therefore, the reception frame determination unit 131 transmits the single OAM frame 135 to the Ethernet (registered trademark) -OAM frame processing unit 138 (step S267). Then, the received frame determination unit 131 returns the process to step S261 (return).

  FIG. 14 shows the processing of the Ethernet (registered trademark) -OAM frame division unit. This will be described with reference to FIGS. 5, 7 and 9.

  When the analysis unit 171 of the Ethernet (registered trademark) -OAM frame division unit 136 receives the combined OAM frame 134 from the reception frame determination unit 131 (step S281: Y), the analysis unit 171 analyzes this (step S282). Then, the combination DATA part in the combined OAM frame 134 is read and held in a memory (not shown) in the analysis part 171 (step S283).

The dividing unit 172 initializes a parameter m for division of the combination DATA unit to “1” (step S284). Then, the above-mentioned m in the small data portion 151 ₁ ～151 _n of first through n constituting the Combination DATA portion held in the memory is read first small data portion 151 ₁ of "1" (step S285 ), This is formed into a single frame (step S286). The single OAM frame 137 is transmitted from the dividing unit 172 to the Ethernet (registered trademark) -OAM frame processing unit 138 (step S287). Incidentally, division section 172 may be the analysis unit 171 instead of reading the first small data portion 151 ₁ is transmitted to the first small data portion 151 ₁ a dividing portion 172.

When the processing for the _first small data portion 151 ₁ is completed in this way, the dividing unit 172 checks whether the number m divided so far has reached the designated number of divisions as the number designated for division (step S1). S288). When this number has not been reached (N), the dividing unit 172 adds the parameter m by “1” (step S289). Then, the process proceeds to step S285. As a result, in step S285, since the parameter m is set to "2", the second small data portion 151 ₂ of the reading of the Combination DATA portion held in the the memory. Thus, ₂ second small data portion 151 is transmitted is configured in a single frame (step S286), the dividing unit 172 to the Ethernet (registered trademark) -OAM frame processing unit 138 (step S287).

  Thereafter, the same processing is repeated until the number m divided in the same manner reaches the designated number of divisions. When the divided number m reaches the designated divided number (step S288: Y), the process returns to step S281 and the analysis unit 171 waits for reception of the combined OAM frame 134 (return).

  The first effect of the embodiment of the present invention described above is that the Ethernet (registered trademark) -OAM function can be integrated by combining the Ethernet (registered trademark) -OAM frames. For example, it is assumed that Ethernet (registered trademark) -CC as the standardized Ethernet (registered trademark) -OAM function and Ethernet (registered trademark) -APS are integrated. This greatly increases the efficiency of operation and maintenance.

  The reason why the first effect occurs will be described. The Ethernet (registered trademark) -CC only performs failure notification periodically. For this reason, if there is a failure notification, the administrator of the system providing the service needs to perform a path switching operation to avoid the failure. When Ethernet (registered trademark) -CC and Ethernet (registered trademark) -APS are integrated, it is possible to perform a path switching operation for avoiding a failure at the same time as the notification when a failure occurs while periodically reporting the failure. For this reason, the traffic flowing through the network is not interrupted. In this way, by integrating the functions, it is possible to add a unique Ethernet (registered trademark) -OAM function.

  The second effect of the embodiment of the present invention is that the Ethernet (registered trademark) -OAM frames flowing on the network can be combined when the functions are used by combining the Ethernet (registered trademark) -OAM frames. is there. By gathering Ethernet®-OAM frames, traffic flowing on the network can be reduced. As a result, the load on the input / output port of the communication device can be reduced and the bandwidth can be used effectively. Furthermore, by determining the frame based on the destination, even if it is an OAM frame, it is possible to avoid useless processing such as dividing a combined frame not addressed to the own apparatus within the own apparatus or recombining after the division. . That is, since only the Ethernet (registered trademark) -OAM frame that needs to be divided or combined in the own apparatus can be processed, the load on the own apparatus can be reduced.

  The third effect of the embodiment of the present invention is that the combined OAM frame has a structure that can be used by mixing with an existing single OAM frame, so that the connection source and the connection destination end each other in communication. This combined OAM frame can be freely incorporated. The combined OAM frame has a configuration in which a field is newly added to the data portion as compared with a single OAM frame used conventionally. For this reason, it is not necessary to change all the OAM frame communication apparatuses existing in the communication network to the frame combination communication apparatus of the present embodiment, and only the OAM frame communication apparatus that needs to be divided or combined is implemented in this embodiment. It is sufficient to change to a frame-coupled communication device of the form. Moreover, even if the invention of this embodiment is implemented, no interference is given to the existing network. Furthermore, since it is possible to freely specify coupling and division for the OAM frame, there is a merit that it becomes much easier to control traffic.

  <Deformability of invention>

  The present invention is not limited to the embodiment described above. For example, in the present embodiment, the transmission port of the normal frame and the Ethernet (registered trademark) -OAM frame is separated from the Ethernet (registered trademark) -OAM frame combining unit 141 in two directions. With this as one transmission port, the combined OAM frame 142 and the single OAM frame 143 may be output in common. In this embodiment, the combined OAM frame 142 is transmitted from the writing unit 165 and the single OAM frame 143 is transmitted from the combined specifying unit 163 as can be seen from the configuration of FIG. Therefore, in order to output the combined OAM frame 142 and the single OAM frame 143 from one transmission port of the Ethernet (registered trademark) -OAM frame combining unit 141, one of the following two methods is selected. .

  In the first method, an internal path from the writing unit 165 to the combination specifying unit 163 shown in FIG. 8 is provided, and the combined OAM frame 142 is sent to the combination specifying unit 163. Thus, the combined OAM frame 142 and the single OAM frame 143 are transmitted to the outside from one transmission port of the Ethernet (registered trademark) -OAM frame combination unit 141 (transmission port of the combination specification unit 163).

  In the second method, a single OAM frame 143 is sent to the writing unit 165 using an internal path from the combination specifying unit 163 to the writing unit 165 shown in FIG. As a result, the combined OAM frame 142 and the single OAM frame 143 are transmitted to the outside from one transmission port of the Ethernet (registered trademark) -OAM frame combination unit 141 (transmission port of the writing unit 165).

  In this embodiment, the combined OAM frame other than the set OAM frame 133 is divided into a single OAM frame 143 for each small data unit 151 by a frame combined communication device such as the second frame combined communication device 102. However, it is not limited to this. It is also possible to combine the combined OAM frames other than the set OAM frame 133 in the frame combined communication apparatus and transmit them as a new combined OAM frame to the transmission line. In this case, it is also possible to provide the frame combination communication device with a division / combination designating unit that designates the restriction on the division of the OAM frame and the combination of the OAM frames.

  Further, in the present embodiment, the Combination TYPE unit and the Combination DATA unit are arranged in the data unit of the Ethernet (registered trademark) -OAM frame shown in FIG. 7, but the configuration in these data units can be freely changed. .

  Furthermore, in this embodiment, the Ethernet (registered trademark) -OAM frame combining unit 141 is arranged in the frame combined communication device such as the second frame combined communication device 102, but the Ethernet (registered trademark) -OAM frame combining unit 141 is provided. The arrangement of is not necessarily required. For example, it is possible to configure all or part of the frame-coupled communication devices constituting the communication network 100 only with the Ethernet (registered trademark) -OAM frame dividing unit 136.

  Similarly, if the Ethernet (registered trademark) -OAM frame combining unit 141 is provided in the second frame combining communication device 102, it is not always necessary to include the Ethernet (registered trademark) -OAM frame dividing unit 136. For example, a single OAM frame and a combined OAM frame are received as an Ethernet frame 111, a single OAM frame is processed, and the single OAM frame and the combined OAM frame are combined under a predetermined condition. It may be configured to output as an OAM frame.

  Further, in the embodiment, the Ethernet (registered trademark) -OAM frame dividing unit 136 and the Ethernet (registered trademark) -OAM frame combining unit 141 are provided in the second frame combined communication device 102. Good. In this case, the integrated Ethernet (registered trademark) -OAM frame dividing / combining unit, for example, an Ethernet (registered trademark) -OAM frame processing unit 138 from a port (not shown) that only processes the own device after dividing the OAM frame. To send. The remaining OAM frames may be output out of the apparatus as combined OAM frames that meet the conditions to be combined, and the other OAM frames may be output out of the apparatus as single OAM frames.

Furthermore, in the embodiment, the transmission port of the Ethernet (registered trademark) -OAM frame dividing unit 136 in the second frame combination communication device 102 is set to one port. This received frame determination unit Ethernet binding OAM frame 134 output from 131 (registered trademark) -OAM frame division unit 136, all for each small data unit 151 ₁ ~151 _n of first through n shown in FIG. 7 This is because the divided n OAM frames 137 are output from the same port. Instead, the Ethernet (registered trademark) -OAM frame dividing unit 136 divides only the small data unit 151 processed by the Ethernet (registered trademark) -OAM frame processing unit 138 to form a single OAM frame from the first port. The remaining OAM frame may be output from the second port and directly input to the Ethernet (registered trademark) -OAM frame combining unit 141.

  <OAM frame extraction processing>

  Next, an Ethernet (registered trademark) -OAM frame extraction process will be described as one modification of the present invention. In this modification, an Ethernet (registered trademark) -OAM frame extracting unit is used instead of the Ethernet (registered trademark) -OAM frame dividing unit 136 shown in FIG. 5 of the embodiment.

  FIG. 15 shows the configuration of the second frame combination communication apparatus in this modification. In FIG. 15, the same parts as those in FIG. 5 are denoted by the same reference numerals, and description thereof will be omitted as appropriate.

  The second frame combination communication device 102A includes an Ethernet (registered trademark) -OAM frame extraction unit 336 that inputs the combination OAM frame 134A output from the reception frame determination unit 131. The OAM frame 337 output from the Ethernet (registered trademark) -OAM frame extraction unit 336 is input to the Ethernet (registered trademark) -OAM frame processing unit 138A. The OAM frame 337 is composed of a single OAM frame destined for the second frame combined communication apparatus 102A and the remaining combined OAM frame extracted therefrom.

  The Ethernet (registered trademark) -OAM frame processing unit 138 </ b> A includes a single OAM frame destined for the second frame combination communication device 102 </ b> A in the input OAM frame 337 and a reception frame determination unit 131. Processing of the single OAM frame 135 destined for the second frame combination communication apparatus 102A is performed. Of the input OAM frame 337, the extracted OAM frame 337 and the single OAM frame 135 destined for another frame combination communication device are set as the OAM frame 339, and the Ethernet (registered trademark) -OAM frame combination unit 141A. To send. The Ethernet (registered trademark) -OAM frame combining unit 141A outputs the combined OAM frame as a combined OAM frame 142, and outputs other OAM frames as a single OAM frame 143.

  The control unit 148A of the second frame coupled communication device 102A stores a control program for realizing such processing in the memory 147A. The CPU 146 executes the control program stored in the memory 147A.

  FIG. 16 shows the structure of a combined OAM frame to be received in this modification. In FIG. 16, the same parts as those in FIG. 7 are denoted by the same reference numerals, and description thereof will be omitted as appropriate.

In the combined OAM frame 134A of this modification, the destination MAC address in each original single OAM frame is stored in the first to nth small data portions 151 ₁ A to 151 _n A constituting the data portion. ing. Therefore, when the destination MAC addresses of the _first to nth small data portions 151 ₁ A to 151 _n A constituting the combined OAM frame 134A are multicast addresses and these addresses do not completely match, Destination MAC address can be confirmed.

  FIG. 17 shows a state of processing of the Ethernet (registered trademark) -OAM frame extraction unit in this modification. In FIG. 17, the same parts as those in FIG. 14 are denoted by the same step numbers, and description thereof will be omitted as appropriate. Also, description will be given with FIG. 15 and FIG.

When receiving the combined OAM frame 134A from the reception frame determination unit 131 (step S281: Y), the Ethernet (registered trademark) -OAM frame extraction unit 337 analyzes this (step S282). Of the destination MAC addresses individually described in the first to nth small data portions 151 ₁ A to 151 _n A in the combined OAM frame 134A, only those destined for the second frame combined communication device 102A are used. Is extracted (step S401). The contents of these small data portions 151A are held in a memory (not shown) (step S283).

  Next, the Ethernet (registered trademark) -OAM frame extraction unit 336 initializes a parameter m for sequentially configuring the contents of the extracted small data unit 151A into a single OAM frame to “1” (step S284). . Then, the first small data portion 151A held in the memory is read (step S285), and is configured into a single frame (step S286). The single OAM frame 337 is transmitted from the Ethernet (registered trademark) -OAM frame extraction unit 337 to the Ethernet (registered trademark) -OAM frame processing unit 138A (step S287).

When the processing for the first small data section 151A is completed in this way, the Ethernet (registered trademark) -OAM frame extracting section 336 has obtained the number m of extraction processing up to the present so that the first to nth small data sections 151 are obtained. ₁ A to 151 _n It is checked whether it matches the total number of destination MAC addresses individually described in A as the destination MAC address (step S402). When this number has not been reached (N), the Ethernet (registered trademark) -OAM frame extraction unit 336 adds the parameter m by “1” (step S289). Then, the process proceeds to step S285. As a result, in step S285, since the parameter m is “2”, the second small data portion 151A held in the memory is read. As a result, the content of the second small data portion 151A is formed into a single frame (step S286), and the Ethernet (registered trademark) -OAM frame extraction unit 336 transfers it to the Ethernet (registered trademark) -OAM frame processing unit 138A. It is transmitted (step S287).

In the following, the same number m of extraction processing is used as the destination MAC address among the destination MAC addresses individually described in the _first to nth small data portions 151 ₁ A to 151 _n A. Similar processing is repeated until the total number is reached. When the number m of extraction processes reaches the total number of destination MAC addresses individually described in the _first to nth small data portions 151 ₁ A to 151 _n A as the destination MAC address ( In step S402: Y), another combined OAM frame that has not been extracted is transmitted as an OAM frame 337 to the Ethernet (registered trademark) -OAM frame processing unit 138A (step S403). Thereafter, returning to step S281, the Ethernet (registered trademark) -OAM frame extraction unit 336 waits for reception of the next combined OAM frame 134A (return).

According to this modification, for example, when the combined OAM frame 134A is composed of 10 small data portions 151 ₁ A to 151 ₁₀ A, only one of the small data portions 151A can send its own device to the destination MAC. When the address is used, only one small data portion 151A needs to be extracted. Therefore, since it is not necessary to mechanically generate 10 small data portions 151 ₁ A to 151 ₁₀ A into 10 single OAM frames, the processing efficiency can be improved.

  In the modified example described above, the combined OAM frame 134A received by the Ethernet (registered trademark) -OAM frame extraction unit 336 can be output as it is as a combined OAM frame as the process of step S403. In this case, the configuration of the subsequent Ethernet (registered trademark) -OAM frame combining unit 141 can be simplified.

  Some or all of the embodiments described above are described as in the following supplementary notes, but are not limited to the following descriptions.

(Appendix 1)
Received frame determination means for determining whether a frame received via the communication network is an Ethernet (registered trademark) -OAM (operations, administration, maintenance) frame addressed to the own device;
The received frame determining means determines that the frame determined to be an Ethernet (registered trademark) -OAM frame addressed to its own device is a single Ethernet (registered trademark) -OAM frame having a single OAM function, or a plurality of frames. A combined Ethernet (registered trademark) -OAM frame combined with an OAM function;
A single Ethernet (registered trademark) -OAM that generates a single Ethernet (registered trademark) -OAM frame necessary for its own device when it is determined by the OAM frame form determining means that it is a combined Ethernet (registered trademark) -OAM frame Frame generating means;
The single Ethernet (registered trademark) -OAM frame generated by the single Ethernet (registered trademark) -OAM frame generating means is determined to be a single Ethernet (registered trademark) -OAM frame or the OAM frame form determining means. Single frame processing content execution means for executing the processing content indicated by the frame,
Ethernet (registered trademark), characterized in that the received frame determining means comprises an Ethernet (registered trademark) -passing frame transmitting means for directly transmitting a frame determined not to be an Ethernet (registered trademark) -OAM frame addressed to its own device to the next transmission destination. ) -OAM frame communication device.

(Appendix 2)
A normal frame discriminating unit for discriminating whether a frame received via the communication network is a normal frame other than an Ethernet (registered trademark) -OAM frame;
The Ethernet (registered trademark) -OAM frame according to appendix 1, wherein the passing frame transmitting means transmits the received frame determined to be a normal frame by the normal frame determining means to the next transmission destination as it is. Communication device.

(Appendix 3)
The single Ethernet (registered trademark) -OAM frame generating means divides the combined Ethernet (registered trademark) -OAM frame into the respective single Ethernet (registered trademark) -OAM frames. The Ethernet (registered trademark) -OAM frame communication device according to appendix 1, which is an OAM frame dividing means.

(Appendix 4)
The single Ethernet (registered trademark) -OAM frame generating means extracts data related to the single Ethernet (registered trademark) -OAM frame necessary for the device from the combined Ethernet (registered trademark) -OAM frame, and The Ethernet (registered trademark) -OAM frame communication device according to appendix 1, wherein a single Ethernet (registered trademark) -OAM frame destined for the device is generated.

(Appendix 5)
Combined Ethernet (in the form of a combination of a plurality of single Ethernet (registered trademark) -OAM frames after the processing content is executed by the single frame processing content executing means when a plurality of combinations satisfy a predetermined combining condition ( The communication apparatus for Ethernet (registered trademark) -OAM frame according to appendix 1, further comprising single frame combining means for generating a registered trademark-OAM frame.

(Appendix 6)
A coupling condition discriminating means for discriminating a single Ethernet (registered trademark) -OAM frame or a combined Ethernet (registered trademark) -OAM frame that satisfies a coupling condition as one Ethernet (registered trademark) -OAM frame;
The Ethernet (registered trademark) -OAM frame according to appendix 1, further comprising: a frame combining unit that combines the Ethernet (registered trademark) -OAM frame that is determined to satisfy the combining condition by the combining condition determining unit. Communication device.

(Appendix 7)
As long as the frame combining means satisfies the combining condition as the one Ethernet (registered trademark) -OAM frame, the predetermined combined Ethernet (registered trademark) -OAM frame is further changed to another combined Ethernet (registered trademark) -OAM frame. Alternatively, the Ethernet (registered trademark) -OAM frame communication device according to appendix 6, wherein the communication device is a unit that combines using a single Ethernet (registered trademark) -OAM frame.

(Appendix 8)
The combined Ethernet (registered trademark) -OAM frame and the single Ethernet (registered trademark) -OAM frame that has not been combined are output from one common port of the frame combining means. The Ethernet (registered trademark) -OAM frame communication device described.

(Appendix 9)
The combined Ethernet (registered trademark) -OAM frame is generated by combining the frames after the single Ethernet (registered trademark) -OAM frame is divided into single Ethernet (registered trademark) -OAM frames by the single Ethernet (registered trademark) -OAM frame dividing unit. The communication apparatus for Ethernet (registered trademark) -OAM frame according to Supplementary Note 3.

(Appendix 10)
A received frame determination step for determining whether a frame received via the communication network is an Ethernet (registered trademark) -OAM (operations, administration, maintenance) frame addressed to the own device;
In this received frame determining step, the frame determined to be an Ethernet (registered trademark) -OAM frame addressed to the own apparatus is a single Ethernet (registered trademark) -OAM frame having a single OAM function, or a plurality of frames An OAM frame form determination step for determining whether the frame is a combined Ethernet (registered trademark) -OAM frame combined with an OAM function;
Single Ethernet (registered trademark) -OAM for generating a single Ethernet (registered trademark) -OAM frame necessary for the own apparatus when it is determined in this OAM frame form determining step that it is a combined Ethernet (registered trademark) -OAM frame A frame generation step;
The single Ethernet (registered trademark) -OAM frame generated after the single Ethernet (registered trademark) -OAM frame generating step is determined to be a single Ethernet (registered trademark) -OAM frame by the OAM frame form determining means. A single frame processing content execution step for executing the processing content indicated by the frame,
Ethernet (registered trademark), characterized in that it comprises a passing frame transmitting step for transmitting the frame determined as not being an Ethernet (registered trademark) -OAM frame addressed to its own device to the next transmission destination as it is in the received frame determining step. ) -OAM frame processing method.

(Appendix 11)
On the computer,
Received frame determination processing for determining whether a frame received via the communication network is an Ethernet (registered trademark) -OAM (operations, administration, maintenance) frame addressed to the own device;
The frame determined by the received frame determination processing to be an Ethernet (registered trademark) -OAM frame addressed to its own device is a single Ethernet (registered trademark) -OAM frame having a single OAM function, or a plurality of frames An OAM frame form determination process for determining whether a combined Ethernet (registered trademark) -OAM frame combined with an OAM function;
Single Ethernet (registered trademark) -OAM that generates a single Ethernet (registered trademark) -OAM frame necessary for the own apparatus when it is determined that the combined Ethernet (registered trademark) -OAM frame is determined by this OAM frame form determination processing Frame generation processing,
The single Ethernet (registered trademark) -OAM frame generated by the single Ethernet (registered trademark) -OAM frame generation process is determined to be a single Ethernet (registered trademark) -OAM frame by the OAM frame form determining means. Single frame processing content execution processing for executing the processing content indicated by the frame,
Ethernet (registered trademark), characterized in that it comprises a passing frame transmission process in which the frame determined not to be an Ethernet (registered trademark) -OAM frame addressed to its own device in the received frame determination process is directly transmitted to the next transmission destination. ) -OAM frame processing program.

DESCRIPTION OF SYMBOLS 10 Ethernet (trademark) -OAM frame communication apparatus 11 Received frame discrimination means 12 OAM frame form discrimination means 13 Single Ethernet (registered trademark) -OAM frame generation means 14 Single frame processing content execution means 15 Passed frame transmission means 20 Ethernet (registered trademark) -OAM frame processing method 21 Received frame determination step 22 OAM frame form determination step 23 Single Ethernet (registered trademark) -OAM frame generation step 24 Single frame processing content execution step 25 Passed frame transmission step 30 Ethernet ( (Registered trademark) -OAM frame processing program 31 received frame determination processing 32 OAM frame form determination processing 33 single Ethernet (registered trademark) -OAM frame generation processing 34 single frame processing Content execution processing 35 Passed frame transmission processing 100 Communication system 101 First frame combined communication device 102, 102A Second frame combined communication device 103 Third frame combined communication device 104-106 Communication device 111 Ethernet (registered trademark) frame 121 ˜123, 135 Single OAM frame 131 Received frame determination unit 132 Normal frame 133 Setting OAM frame 134, 142 Combined OAM frame 136 Ethernet (registered trademark) -OAM frame dividing unit 138, 138A Ethernet (registered trademark) -OAM frame processing unit 141, 141A Ethernet (registered trademark) -OAM frame coupling unit 143 Single OAM frame 146 CPU
147, 147A Memory 148, 148A Control unit 151, 151A Small data unit 161 Reading unit 163 Connection specifying unit 164 Memory unit 165 Writing unit 171 Analyzing unit 172 Dividing unit 336 Ethernet (registered trademark) -OAM frame extracting unit 337, 339 OAM flame

Claims (10)

Received frame determination means for determining whether a frame received via the communication network is an Ethernet (registered trademark) -OAM (operations, administration, maintenance) frame addressed to the own device;
The received frame determining means determines that the frame determined to be an Ethernet (registered trademark) -OAM frame addressed to its own device is a single Ethernet (registered trademark) -OAM frame having a single OAM function, or a plurality of frames. A combined Ethernet (registered trademark) -OAM frame combined with an OAM function;
A single Ethernet (registered trademark) -OAM that generates a single Ethernet (registered trademark) -OAM frame necessary for its own device when it is determined by the OAM frame form determining means that it is a combined Ethernet (registered trademark) -OAM frame Frame generating means;
The single Ethernet (registered trademark) -OAM frame generated by the single Ethernet (registered trademark) -OAM frame generating means is determined to be a single Ethernet (registered trademark) -OAM frame or the OAM frame form determining means. Single frame processing content execution means for executing the processing content indicated by the frame,
Ethernet (registered trademark), characterized in that the received frame determining means comprises an Ethernet (registered trademark) -passing frame transmitting means for directly transmitting a frame determined not to be an Ethernet (registered trademark) -OAM frame addressed to its own device to the next transmission destination. ) -OAM frame communication device. A normal frame discriminating unit for discriminating whether a frame received via the communication network is a normal frame other than an Ethernet (registered trademark) -OAM frame;
2. The Ethernet (registered trademark) -OAM frame according to claim 1, wherein the passing frame transmitting means transmits the received frame determined as a normal frame by the normal frame determining means to the next transmission destination as it is. Communication equipment.   The single Ethernet (registered trademark) -OAM frame generating means divides the combined Ethernet (registered trademark) -OAM frame into the respective single Ethernet (registered trademark) -OAM frames. The Ethernet (registered trademark) -OAM frame communication device according to claim 1, wherein the communication device is an OAM frame dividing means.   The single Ethernet (registered trademark) -OAM frame generating means extracts data related to the single Ethernet (registered trademark) -OAM frame necessary for the device from the combined Ethernet (registered trademark) -OAM frame, and 2. The Ethernet (registered trademark) -OAM frame communication device according to claim 1, wherein a single Ethernet (registered trademark) -OAM frame destined for the device is generated.   Combined Ethernet (in the form of a combination of a plurality of single Ethernet (registered trademark) -OAM frames after the processing content is executed by the single frame processing content executing means when a plurality of combinations satisfy a predetermined combining condition ( 2. The Ethernet (registered trademark) -OAM frame communication apparatus according to claim 1, further comprising single frame combining means for generating a registered (registered trademark) -OAM frame. A coupling condition discriminating means for discriminating a single Ethernet (registered trademark) -OAM frame or a combined Ethernet (registered trademark) -OAM frame that satisfies a coupling condition as one Ethernet (registered trademark) -OAM frame;
2. The Ethernet (registered trademark) according to claim 1, further comprising: an Ethernet (registered trademark) that is determined to satisfy the coupling condition by the coupling condition discriminating unit-a frame combining unit that combines the OAM frames. OAM frame communication device.   As long as the frame combining means satisfies the combining condition as the one Ethernet (registered trademark) -OAM frame, the predetermined combined Ethernet (registered trademark) -OAM frame is further changed to another combined Ethernet (registered trademark) -OAM frame. 7. The communication apparatus for Ethernet (registered trademark) -OAM frame according to claim 6, wherein the communication device is a means for combining using a single Ethernet (registered trademark) -OAM frame.   The combined Ethernet (registered trademark) -OAM frame and the single Ethernet (registered trademark) -OAM frame that has not been combined are output from a common port of the frame combining means. 6. The Ethernet (registered trademark) -OAM frame communication device according to 6. A received frame determination step for determining whether a frame received via the communication network is an Ethernet (registered trademark) -OAM (operations, administration, maintenance) frame addressed to the own device;
In this received frame determining step, the frame determined to be an Ethernet (registered trademark) -OAM frame addressed to the own apparatus is a single Ethernet (registered trademark) -OAM frame having a single OAM function, or a plurality of frames An OAM frame form determination step for determining whether the frame is a combined Ethernet (registered trademark) -OAM frame combined with an OAM function;
Single Ethernet (registered trademark) -OAM for generating a single Ethernet (registered trademark) -OAM frame necessary for the own apparatus when it is determined in this OAM frame form determining step that it is a combined Ethernet (registered trademark) -OAM frame A frame generation step;
The single Ethernet (registered trademark) -OAM frame generated after the single Ethernet (registered trademark) -OAM frame generating step is determined to be a single Ethernet (registered trademark) -OAM frame by the OAM frame form determining means. A single frame processing content execution step for executing the processing content indicated by the frame,
Ethernet (registered trademark), characterized in that it comprises a passing frame transmitting step for transmitting the frame determined as not being an Ethernet (registered trademark) -OAM frame addressed to its own device to the next transmission destination as it is in the received frame determining step. ) -OAM frame processing method. On the computer,
Received frame determination processing for determining whether a frame received via the communication network is an Ethernet (registered trademark) -OAM (operations, administration, maintenance) frame addressed to the own device;
The frame determined by the received frame determination processing to be an Ethernet (registered trademark) -OAM frame addressed to its own device is a single Ethernet (registered trademark) -OAM frame having a single OAM function, or a plurality of frames An OAM frame form determination process for determining whether a combined Ethernet (registered trademark) -OAM frame combined with an OAM function;
Single Ethernet (registered trademark) -OAM that generates a single Ethernet (registered trademark) -OAM frame necessary for the own apparatus when it is determined that the combined Ethernet (registered trademark) -OAM frame is determined by this OAM frame form determination processing Frame generation processing,
The single Ethernet (registered trademark) -OAM frame generated by the single Ethernet (registered trademark) -OAM frame generation process is determined to be a single Ethernet (registered trademark) -OAM frame by the OAM frame form determining means. Single frame processing content execution processing for executing the processing content indicated by the frame,
Ethernet (registered trademark), characterized in that it comprises a passing frame transmission process in which the frame determined not to be an Ethernet (registered trademark) -OAM frame addressed to its own device in the received frame determination process is directly transmitted to the next transmission destination. ) -OAM frame processing program.

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