JP5760729B2 - COMMUNICATION DEVICE, NETWORK, AND COMMUNICATION METHOD USED FOR THEM - Google Patents

Description

  The present invention relates to a communication apparatus, a network, and a communication method used therefor, and more particularly to a communication method using an active transmission line and a standby transmission line.

  FIG. 11 shows a configuration example of the redundant network described above. In FIG. 11, the network described above is configured by connecting the relay device 4 and the relay device 5 by two transmission paths 201 and 202. Here, the transmission path 201 is used as an active system, and the transmission path 202 is a standby system.

  The relay device 4 and the relay device 5 send a CCM (Continuity Check Message) of Ethernet (registered trademark) OAM (Operations, Administration and Maintenance) to the opposing communication device via the transmission lines 201 and 202 at a predetermined cycle. (See, for example, Patent Documents 1 to 3).

  The relay device 4 and the relay device 5 that have received the CCM monitor the reception interval of the CCM, and determine that there is no problem in the transmission path through which the CCM is received in a predetermined cycle.

  The relay device 4 and the relay device 5 can detect that a failure has occurred in the transmission path if the CCM cannot be received for a certain timeout period or longer. When an abnormality is detected in the working transmission line 201, the transmission line 202 can be switched from the protection system to the working system (protection switching).

  As an example of a network redundancy method using the Ethernet (registered trademark) OAM, an ITU-T (International Telecommunication Union-Telecommunication Standardization Sector) G. 8031 “Ethernet (registered trademark) linear protection switching”, ITU-T G. 8032 “Ethernet (registered trademark) ring protection switching”.

  In this network redundancy method, failure detection can be performed earlier as the CCM transmission / reception cycle is shorter. Therefore, in a network that requires early recovery, the CCM transmission / reception cycle is required to be shorter. In many cases, 1/300 second (3.33 milliseconds) of the shortest cycle in the Ethernet (registered trademark) OAM recommendation is selected.

JP 2009-194623 A JP 2009-200849 A JP 2011-010047 JP

  In the above-described redundant configuration network, when a short-period CCM for switching protection is used in a low-speed transmission path such as DSL (Digital Subscriber Line) or wireless, there is a problem that the bandwidth is compressed by transmission / reception of the CCM. is there.

  As an example, the bandwidth used for CCM transmission / reception in a short period of 1/300 seconds in Ethernet (registered trademark) of IEEE (Institute of Electrical and Electronics Engineers) 802.3 is 271 kbps or more. This means that a bandwidth of several percent or more is always occupied by the CCM in a transmission path of several Mbps.

Here, the bandwidth used for CCM transmission / reception is:
Ethernet (registered trademark) frame (untag) + CCM: 93 octets
Preamble + SFD: 8 octets
Minimum IFG: 12 octets
As
(93 + 8 + 12) × 8 (bit) × 300 (frame per second)
= 271 kbps
Is calculated.

  Further, MEG (Maintenance Entity Group) ID (IDentifier) and MEP (MEG End Point) ID are ITU-T Y. 1731.

  In IEEE802.1ag, these are the names of Maintenance Association Identifier (MAID) and Maintenance Association End Point Identifier, respectively.

  When short cycle CCM is used to switch protection on a low-speed transmission path such as DSL or wireless, there is a problem that the bandwidth is compressed by transmission / reception of the CCM.

  Accordingly, an object of the present invention is to solve the above-described problems and provide a communication device and a network that can communicate data other than CCM without using a new band other than the CCM occupied band, and a communication method used for them. There is to do.

The communication device according to the present invention monitors the reception interval of CCM (Continuity Check Message) transmitted from the opposite device at a predetermined cycle, and when the CCM is received at the predetermined cycle, the transmission path through which the CCM has passed A communication device that determines that there is no problem with
Creating means for creating the CCM and a CCM in which arbitrary information is superimposed;
And a means for transmitting the CCM created by the creating means and the CCM on which the arbitrary information is superimposed to each other at a predetermined interval.

  A network according to the present invention includes the communication device described above.

The communication method according to the present invention monitors the reception interval of CCM (Continuity Check Message) transmitted from the opposite device at a predetermined cycle, and when the CCM is received at a predetermined cycle, the transmission path through which the CCM has passed. A communication method used for a communication device that determines that there is no problem
The communication apparatus preliminarily sets a creation process for creating the CCM and a CCM on which arbitrary information is superimposed, and the CCM created in the creation process and the CCM on which the arbitrary information is superimposed. And processing to transmit to the opposite device at a predetermined interval.

  By adopting the configuration and operation as described above, the present invention provides an effect that data other than the CCM can be communicated without using a new band other than the CCM occupied band.

It is a block diagram which shows the structural example of the communication apparatus by this invention. ITU-TY used in the present invention. It is a figure which shows the CCM format in 1731 recommendation. It is a figure which shows the CCM transmission period in this invention. It is a block diagram which shows the structural example of the network by embodiment of this invention. It is a figure which shows the method of transmission of MEP ID information and MEG ID information when not using this invention. It is a figure which shows the method of transmission of MEP ID information and MEG ID information at the time of using this invention. ITU-T Y.M. It is a figure which shows the format of the MEP ID field in 1731 recommendation. It is a figure which shows the format of the MEP ID field of CCM which does not contain MEP ID information and MEG ID information in embodiment of this invention. It is a flowchart which shows operation | movement of the CCM transmission part by embodiment of this invention. It is a flowchart which shows operation | movement of the CCM receiving part by embodiment of this invention. It is a figure which shows the structural example of the network of a redundant structure relevant to this invention.

  Next, embodiments of the present invention will be described with reference to the drawings. First, an outline of a communication apparatus according to the present invention will be described. In the communication device according to the present invention, arbitrary information is superimposed on CCM (Continuity Check Message) in Ethernet (registered trademark) OAM (Operations, Administration and Maintenance) used in the communication device on Ethernet (registered trademark). It is characterized by.

  ITU-T (International Telecommunication Union-Telecommunication Standardization Sector) The MEG (Maintenance Entity Group) ID (IDentifier) field and MEP (MEG End Point) ID field in the CCM format in the 1731 recommendation detect misconnections and Ethernet (registered trademark) OAM setting errors between communication devices To store information.

  However, when considering a network after the start of practical use, there is a case where it is not necessary to monitor erroneous connection or erroneous setting in a short cycle such as a 3.33 millisecond cycle. Therefore, with regard to the MEG ID field and the MEP ID field, it is allowed to include intermittent information within a range that does not significantly impair the detectability of the original misconnection or misconfiguration abnormality detection information. In this empty field, arbitrary information can be stored, so that the additional bandwidth can be used in applications other than CCM.

  FIG. 1 is a block diagram showing a configuration example of a communication apparatus according to the present invention, and FIG. 17 is a diagram showing a CCM format in the 1731 recommendation, and FIG. 3 is a diagram showing a CCM transmission cycle in the present invention.

  In FIG. 1, a communication device 1 is a communication device such as a layer 2 switch that is arranged on the Ethernet (registered trademark) and has a function of analyzing the Ethernet (registered trademark) OAM.

  In addition, the communication device 1 includes a CCM transmission unit 11, a CCM reception unit 12, an Ethernet (registered trademark) OAM setting information storage unit (hereinafter referred to as an OAM setting information storage unit, and stores OAM setting information in the drawings described below). 13).

  The CCM transmission unit 11 generates a CCM based on information predetermined in the OAM setting information storage unit 13 and transmits the CCM to other devices. However, at this time, the MEP ID field and MEG ID field of the CCM to be generated (the MEP ID field and MEG ID field in the CCM format in the ITU-T Y.1731 recommendation of FIG. 2) are generated as follows. .

  (1) ITU-T Y.R. In 1731, the CCM including the MEP ID information and the MEG ID information that are recommended to be input is intermittently generated as shown in FIG.

  (2) In a period other than the above (1), the MEP ID information and the MEG ID information are not included, and the CCM in which the flag information for discriminating from the CCM generated in (1) and arbitrary information are stored in the empty field And generate

  The CCM receiving unit 12 extracts a CCM addressed to its own device MEP from CCMs received from other devices based on information predetermined in the OAM setting information storage unit 13. Further, the following processing is performed for the CCM addressed to the self-device MEP that has been extracted.

  (1) For a CCM including MEP ID information and MEG ID information (without flag information), the information defined in advance in the OAM setting information storage unit 13 is “the same MEG Level, but the received MEP itself "Receiving a CCM frame having a MEG ID different from the MEG ID possessed by (Mergege)", "Receiving a CCM frame having a correct MEG ID in the same MEG Level, but having a destination MEP ID different from the MEP ID of the received MEP itself ( (Unexpected MEP) "is confirmed.

  (2) For the CCM that does not include MEP ID information and MEG ID information (having flag information), the detection of “Misserge” and “Unexpected MEP” is not performed. For this CCM, any information stored in the MEP ID field and MEG ID field is extracted.

  In this way, in the present invention, information for detecting erroneous connection or misconfiguration of the CCM is allowed to be intermittently stored, and by having a function of superimposing arbitrary information on the CCM, the superimposition can be performed. Can be used in applications other than CCM.

  FIG. 4 is a block diagram showing a configuration example of a network according to the embodiment of the present invention. In FIG. 4, as the present embodiment, a configuration is shown in which device control information is superimposed on the CCM to enable device management on the network without newly increasing the use band.

  In FIG. 4, the communication device 1 performs CCM transmission / reception of Ethernet (registered trademark) OAM via the communication device 2 and the transmission path 101 to continuously monitor connectivity. The communication device 1 also has a role of relaying control information from the control terminal 3 to the communication device 2.

  The communication device 2 performs CCM transmission / reception of Ethernet (registered trademark) OAM via the communication device 1 and the transmission path 101 to continuously monitor connectivity. Further, the communication device 2 can transfer its own device state or change the function of its own device based on the control information from the control terminal 3.

  The control terminal 3 has a function of generating control information for performing device status acquisition and function change of the communication device 2.

  As an example of the control information here, MIB (Management Information Base) information in SNMP (Simple Network Management Protocol) can be cited, but since it is not directly related to the present invention, description thereof is omitted.

  The transmission path 101 and the transmission path 102 are means for mediating communication information between adjacent apparatuses or terminals. Examples of the transmission path 101 and the transmission path 102 include an optical fiber, a twisted pair cable, a coaxial cable, and the like. However, in the case of wireless, air is also included, and the form is not particularly limited.

  The CCM transmission unit 11 of the communication device 1 has a function of generating a CCM based on information preset in the OAM setting information storage unit 13 and transmitting it to the CCM reception unit 22 of the communication device 2. However, for the MEG ID field and MEP ID field in the CCM format, the MEP ID information and the MEG ID information are embedded at a rate of once every three times.

  FIG. 5 is a diagram showing how MEP ID information and MEG ID information are transmitted when the present invention is not used, and FIG. 6 is a diagram illustrating transmission of MEP ID information and MEG ID information when the present invention is used. It is a figure which shows how.

  Normal ITU-TY In the CCM format defined in the 1731 recommendation, all transmitted CCMs include MEP ID information and MEG ID information.

  On the other hand, in the present embodiment, a CCM (white bar) including MEP ID information and MEG ID information is generated only once every three times. This is because the transmission cycle of the MEP ID information and the MEG ID information is assumed to be set to three times that of the CCM transmission cycle set in the OAM setting information storage unit 13.

  For the CCM (black bar) that does not include the remaining two MEP ID information and MEG ID information, the control terminal 3 sends the address to the communication device 2 with respect to the MEP ID field and MEG ID field that have become empty fields. The control information and flag information for notifying the opposite apparatus that the CCM does not include MEP ID information and MEG ID information are embedded.

  FIG. It is a figure which shows the format of the MEP ID field in 1731 recommendation. In FIG. 7, since MEP ID information is represented by an integer of 13 bits, 3 bits are determined to be fixed to “0” from the 9th octet MSB (Most Significant Bit).

  FIG. 8 is a diagram showing the format of the MEP ID field of the CCM not including the MEP ID information and MEG ID information in the embodiment of the present invention. In FIG. 8, as flag information, 3 bits from the MSB of the ninth octet are set to “1”.

  The function ID which is the remaining 5 bits of the ninth octet represents the type of data superimposed on the CCM, and indicates which function unit of the communication apparatus is addressed. When the function ID is “0”, it indicates that there is no superimposition data.

  The sequence number of the 10th octet represents the restoration order of data superimposed on the CCM. When the size of the data to be superimposed is large, it is necessary to subdivide the data into a size that can be accommodated in one CCM on the CCM transmission side. It is used so that the CCM receiving side that has received the subdivided data can restore the original data order.

  Also, all the MEG ID fields of the CCM that do not include the MEP ID information and MEG ID information in the present embodiment are used for data storage. It is not related to the format of the MEG ID field in the 1731 recommendation.

  The CCM receiving unit 12 of the communication device 1 has a function of extracting a CCM addressed to its own device MEP from CCMs received from other devices based on information preset in the OAM setting information storage unit 13. In addition, the CCM receiving unit 12 has a function of performing an original connectivity check of the ETH-CC.

  Specifically, a LOC (Loss of Continuity) abnormality is detected when the time since the last CCM was received exceeds 3.5 times the CCM transmission / reception cycle.

  Further, if 3 bits from the MSB of the ninth octet of the MEP ID field of the CCM addressed to the own device MEP is “0”, it is determined as a CCM including the MEP ID information and the MEG ID information, and the information on the CCM is the OAM setting information. It is confirmed whether or not the information preset in the storage unit 13 matches.

  In the present embodiment, “reception of a CCM frame having the same MEG Level but a different MEG ID from the received MEP itself (Misserge)”, “the same MEG Level has the correct MEG ID, but the received MEP It is possible to detect two abnormalities, that is, the reception of a CCM frame having its own MEP ID and a different destination MEP ID (Unexpected MEP).

  When 3 bits from the MSB of the ninth octet of the MEP ID field of the CCM addressed to the own device MEP is “1”, it is determined that the CCM does not include the MEP ID information and the MEG ID information, and the above abnormality detection is not performed. Instead, the CCM receiving unit 12 performs an operation of extracting the superimposed data.

  Thereafter, the CCM receiving unit 12 performs an operation of transferring the data in the MEG ID field to an appropriate function unit defined by the function ID of the MEP field. In the present embodiment, an operation of extracting control information addressed to the control terminal 3 as data and transmitting it to the control terminal 3 is performed.

  The OAM setting information storage units 13 and 23 include “MEG level of own device MEP”, “MEG ID of own device MEP”, “MEP ID of own device MEP”, “Peer MEP ID of own device MEP”, “own device MEP ID”, This is a memory capable of reading and writing information called “MEP CCM transmission / reception cycle”.

  The CCM transmission unit 21 of the communication device 2 has the same function as the CCM transmission unit 11 of the communication device 1 described above. The CCM transmission unit 21 has a function of generating a CCM based on information preset in the OAM setting information storage unit 23 and transmitting it to the CCM reception unit 12 of the communication apparatus 1. In the present embodiment, the data to be superimposed on the CCM is control information addressed to the control terminal 3 received from the device control unit 24.

  The CCM receiving unit 22 of the communication device 2 has the same function as the CCM receiving unit 12 of the communication device 1 described above. The CCM receiving unit 22 has a function of extracting a CCM addressed to the own device MEP from CCMs received from other devices based on information preset in the OAM setting information storage unit 23. In the present embodiment, data superimposed on the CCM is control information addressed to the device control unit 24.

  The device control unit 24 of the communication device 2 has a function of acquiring the device state and changing the function of the device based on the control information received from the CCM receiving unit 22. The device control unit 24 has a function of transmitting control information including a result of performing the function to the CCM transmission unit 21.

  FIG. 9 is a flowchart showing the operation of the CCM transmission unit according to the embodiment of the present invention, and FIG. 10 is a flowchart showing the operation of the CCM reception unit according to the embodiment of the present invention. The operation of the CCM transmission and CCM reception unit according to the embodiment of the present invention will be described with reference to FIGS.

  First, operations of the CCM transmission unit 11 of the communication device 1 and the CCM transmission unit 21 of the communication device 2 illustrated in FIG. 4 will be described with reference to FIG.

  When starting the CCM transmission, the CCM transmission units 11 and 21 first acquire information stored in each field of the CCM format from the OAM setting information storage units 13 and 23 (step S1 in FIG. 9).

  Further, since the CCM transmission units 11 and 21 transmit a CCM having MEP ID information and MEG ID information only once every three times, a counter N (not shown) for determining the number of CCMs is provided. Have. In the process of step S1, the initial value of the counter N is also set.

  Next, the CCM transmission units 11 and 21 perform weights for transmitting the CCM at the CCM transmission / reception period set in the Ethernet (registered trademark) OAM in the period wait (step S2 in FIG. 9).

  The CCM transmission units 11 and 21 generate and transmit three types of CCMs according to two conditional expressions after the period wait. In other words, when “N = 3” (YES in step S3 in FIG. 9), the CCM transmission units 11 and 21 determine the ITU-T Y. A CCM having MEP ID information and MEG ID information conforming to the 1731 format is generated and transmitted (step S4 in FIG. 9).

  The CCM transmitters 11 and 21 are MEPs in which the data is superimposed when “N = 3” (NO in step S3 in FIG. 9) and there is data to be transmitted (YES in step S6 in FIG. 9). A CCM having no ID information or MEG ID information is generated and transmitted (step S7 in FIG. 9).

  The CCM transmission units 11 and 21 do not superimpose data when “N = 3” (NO in step S3 in FIG. 9) and when there is no data to be transmitted (NO in step S6 in FIG. 9). Then, a CCM having no MEP ID information and MEG ID information is generated and transmitted (step S8 in FIG. 9).

  The CCM transmission units 11 and 21 are ITU-T Y. After transmitting the CCM conforming to the 1731 format, the counter is cleared and the wait for the CCM transmission / reception cycle interval is performed again (step S5 in FIG. 9). In addition, when transmitting other CCMs, the CCM transmission units 11 and 21 rotate the counter by one and wait for the CCM transmission / reception cycle again (step S9 in FIG. 9).

  Next, operations of the CCM receiving unit 12 of the communication device 1 and the CCM receiving unit 22 of the communication device 2 illustrated in FIG. 4 will be described with reference to FIG.

  When starting the reception of CCM, the CCM receiving units 12 and 22 first acquire information for extracting the CCM addressed to the own device MEP from the OAM setting information storage units 13 and 23 (step S11 in FIG. 10).

  Thereafter, the CCM receiving units 12 and 22 perform three kinds of processing according to the two conditional expressions when the CCM addressed to the own device MEP is received. That is, if the CCM receiving units 12 and 22 do not have flag information (in this embodiment, 3 bits from the MSB of the ninth octet in the CCM format are “0”) (YES in step S14 in FIG. 10), the ITU -TY. It is determined that the CCM conforms to the 1731 format and includes confirmation of MEP ID information and MEG ID information. A reception process as recommended in 1731 is performed (step S15 in FIG. 10).

  The CCM receivers 12 and 22 have flag information (in the case of the present embodiment, when 3 bits from the MSB of the ninth octet in the CCM format is “1”) (NO in step S14 in FIG. 10) and are superimposed. (In this embodiment, when the function ID is other than “0”) (YES in step S16 in FIG. 10), the superposed data is extracted from the CCM and is stored in the target device block. Processing to transmit the data is performed (step S17 in FIG. 10).

  When CCM receivers 12 and 22 have flag information (NO in step S14 in FIG. 10), and when it is determined that there is no superimposed data (in this embodiment, the function ID is “0”) (NO in step S16 in FIG. 10), no data extraction is performed (step S18 in FIG. 10).

  After completing the process, the CCM receiving units 12 and 22 again wait for a CCM addressed to the own apparatus MEP. Further, during the process of waiting for the CCM addressed to its own device MEP, the CCM receiving units 12 and 22 do not receive for a period of 3.5 times or more of the CCM transmission / reception cycle (YES in step S13 in FIG. 10). Loss of continuity) is detected.

  As described above, in this embodiment, data is superimposed on the surplus bandwidth of the CCM, so that data other than the CCM can be communicated without using a new bandwidth other than the conventional CCM occupied bandwidth.

  In the present embodiment, the function of detecting a mismatch error between the MEP ID field and MEG ID field in the CCM and the Ethernet (registered trademark) OAM setting information of the own device can be skipped. It can be implemented for the purpose of reducing the load on device resources such as (device) and memory.

  In the embodiment of the present invention, the CCM transmission interval including the MEP ID information and the MEG ID information is set to a period three times the CCM transmission / reception period. However, since the present invention can exert an effect regardless of the periodicity or aperiodicity of the transmission interval, a mixture without regularity as shown in FIG. 3 is possible.

  As an example of mixing without regularity, when there is no data that needs to be communicated, ITU-T Y.M. An implementation for transmitting a CCM in the recommended format of 1731 is conceivable.

  Further, when a device not using the present invention (conventional device) and a device using the present invention face each other, the directions in which the conventional device transmits CCM and the device according to the present invention receives CCM are compatible. However, the direction in which the apparatus according to the present invention transmits CCM and the conventional apparatus receives CCM is not compatible.

  In the apparatus according to the present invention, it is of course possible to implement such that the operation of the prior art and the operation of the present invention can be switched. Alternatively, it is naturally conceivable to implement an operation only in the compatible CCM reception direction, and conversely, an operation only in the incompatible CCM transmission direction.

1,2 Communication device
3 Control terminal 11, 21 CCM transmission unit 12, 22 CCM reception unit 13, 23 Ethernet (registered trademark) OAM setting information storage unit
24 Device control unit 101, 102 Transmission path

Claims (7)

The reception interval of CCM (Continuity Check Message) transmitted from the opposite device at a predetermined cycle is monitored, and when the CCM is received at a predetermined cycle, it is determined that there is no problem in the transmission path through which the CCM passes. A communication device,
Creating means for creating the CCM and a CCM in which arbitrary information is superimposed;
Have a means for transmitting the CCM of the CCM and the arbitrary information created by said creation means is superimposed on the opposing device at predetermined intervals, respectively,
MEG (Maintenance Entity Group) ID (IDentifier) field and MEP (MEG End Point) ID field in the CCM format are erroneously connected, and an OAM (Operations, Administration and Maintenance) setting error between devices is detected. When the information is intermittently stored and the MEG ID field and the MEP ID field do not include the information and are empty fields, the MEG ID field and the MEP ID field which are empty fields And storing the arbitrary information . Communication apparatus according to claim 1, characterized in that transmits the CCM of the arbitrary information and the CCM is superimposed periodically or aperiodically. The communication apparatus according to claim 2 , wherein when there is no data that needs to be communicated, a CCM on which the arbitrary information is not superimposed is transmitted. A network comprising the communication device according to any one of claims 1 to 3 . The reception interval of CCM (Continuity Check Message) transmitted from the opposite device at a predetermined cycle is monitored, and when the CCM is received at a predetermined cycle, it is determined that there is no problem in the transmission path through which the CCM passes. A communication method used for a communication device,
The communication apparatus preliminarily sets a creation process for creating the CCM and a CCM on which arbitrary information is superimposed, and the CCM created in the creation process and the CCM on which the arbitrary information is superimposed. Process to send to the opposite device at a certain interval ,
MEG (Maintenance Entity Group) ID (IDentifier) field and MEP (MEG End Point) ID field in the CCM format are erroneously connected, and an OAM (Operations, Administration and Maintenance) setting error between devices is detected. When the information is intermittently stored and the MEG ID field and the MEP ID field do not include the information and are empty fields, the MEG ID field and the MEP ID field which are empty fields And storing the arbitrary information . 6. The communication method according to claim 5, wherein the CCM and the CCM on which the arbitrary information is superimposed are transmitted periodically or aperiodically. The communication method according to claim 6 , wherein a CCM on which the arbitrary information is not superimposed is transmitted when there is no data that needs to be communicated.

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