JP2012010020A - Link-down transfer method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a link-down transfer method which enables a link-down to be transferred to the connection device of an opposite user when detecting a link failure in a packet transport network.SOLUTION: A point-to-point transfer path is given between connection devices (SW#1, #2) connected to network elements (NE#1, #4) in a packet transport network. When the occurrence or restoration of a link failure of the transfer path in the network element (NE#1, #4) is detected, a maintenance operation management frame storing the existence information of link-down transfer is generated, and the maintenance operation management frame is transmitted to the opposite network element. The opposite network element which receives the maintenance operation management frame executes a shutdown of the link to the connection device or releases the shutdown according to the existence information of the link-down transfer.

Description

  The present invention relates to a link-down transfer method. The present invention relates to a link-down transfer method for transmitting a link-down state to an opposing communication device in a packet transport network represented by an MPLS-TP (Multi-Protocol Label Switching-Transport Profile) method.

  In recent years, with the development of packet-based networks such as IP (Internet Protocol) and Ethernet (registered trademark) networks, the network has shifted from conventional legacy communication networks (such as Ether Over Sote / SDH) to packet transport networks. Therefore, it is required to improve the accommodation efficiency of the network and to continue the existing service at a low cost.

  In realizing the transition from the conventional legacy communication network to the packet transport network, it is required to maintain the high reliability (carrier grade) of the conventional legacy communication network. Therefore, in the MPLS-TP method, which is one of the packet transfer methods, the performance of the maintenance operation management is handled by handling the transmission layer as an independent layer and providing an operation administration maintenance (OAM) function. Standardization is underway to improve

  On the other hand, in legacy communication networks, VCAT (Virtual concatenation, ITU-T G.707) and GFP (Generic Frame Procedure, ITU-T) are used as one of maintenance operation management functions in a TDM (Time Division Multiplexing) network. A link down transfer function that uses a combination of technologies recommended in G.7041 / Y.1303) is known.

  The link down transfer function will be described with reference to FIG. 9, the user connection devices (SW # 1) 9-1 and (SW # 2) 9-6 are respectively connected to the network element (NE # 1) by an Ethernet (registered trademark) interface (hereinafter referred to as an Ethernet interface). 9-2 and (NE # 4) 9-5.

  The network elements (NE # 1) 9-2 and (NE # 4) 9-5 together with the other network elements (NE # 2) 9-3 and (NE # 3) 9-4 are included in the packet transport network 9-7. And providing a transfer path of a point-to-point Ethernet (registered trademark) transport to the connection devices (SW # 1) 9-1 and (SW # 2) 9-6 connected by the Ethernet interface. .

  (1) In such a network configuration, one of the network elements (NE # 1) 9-2 and (NE # 4) 9-5 that provides the transfer path described above, for example, the network element (NE # 1) 9-2 Assume that a link down (link failure) of the Ethernet interface has occurred.

  (2) In this case, when the network element (NE # 1) 9-2 detects the occurrence of the link down of the Ethernet interface, the network element (NE # 1) 9-2 sends the link down occurrence information to the opposite connection device (SW # 2) of the transfer path and the Ethernet interface. Transfer to connected network element (NE # 4) 9-5.

  (3) Upon receiving the link down occurrence information from the network element (NE # 1) 9-2, the network element (NE # 4) 9-5 actively communicates with the connection device (SW # 2) 9-6. Disconnect (shut down) the Ethernet interface.

  Such a function is called a link down transfer function. By providing the link down transfer function, when viewed from the user connection devices (SW # 1) 9-1 and (SW # 2) 9-6, the network element ( The packet transport network 9-7 using NE # 1) 9-2 to (NE # 4) 9-5 appears as if it is a single physical link.

  (4) In addition to the transmission path of the packet transport network 9-7, another backup route 9-8 is provided between the opposing connection devices (SW # 1) 9-1 and (SW # 2) 9-6. When prepared, the connection devices (SW # 1) 9-1 and (SW # 2) 9-6 immediately switch the transmission path to the backup route 9-8 by the link down transfer function. With the link-down transfer function, it is possible to shorten the signal communication interruption time in updating the hot standby transmission path.

  The trend of standardization of the packet transport network by the MPLS-TP system is described in the following Non-Patent Document 1 and the like. Frames defined by Ethernet (registered trademark) OAM are described in, for example, Patent Document 1 below. The link down transfer function is described in, for example, the following Patent Documents 2 to 4.

Yoshinori Koike and Makoto Murakami, “Trends in packet transport standardization in ITU-T”, NTT Technical Journal (2009.5) p. 43-46

JP 2009-278451 A JP 2006-339956 A JP 2006-325002 A Table 2004/040854

  In a packet transport network, in a connection configuration in which an Ethernet interface is used for a user network interface (UNI), a link-down transfer function for transmitting link-down to the opposite device side as a means of improving maintenance operability. Realization is strongly demanded.

  According to the present invention, a network element (NE) that is connected to a user connection device via an Ethernet interface and that constitutes a packet transport network can detect the link failure of an Ethernet interface or a link failure in a relay section. Allows link down to be communicated within the packet transport network to connected network elements.

  The link-down transfer method of the present invention provides a packet transport network that provides a point-to-point transfer path between first and second connection devices connected to a network element of a packet transport network by a user network interface (UNI). The link-down transfer method according to claim 1, wherein when the occurrence or recovery of a link failure in the transfer path is detected in the network element connected to the first or second connection device, presence / absence information of link-down transfer is stored. Generating the maintenance operation management frame, transmitting the maintenance operation management frame to the network element facing the transfer path, and receiving the maintenance operation management frame storing the link down transfer presence / absence information. Network connected to the first or second connection device Remento according existence information of the link down transfer, is intended to include a step of releasing the practice or the shut shutdown of the link between the connection device.

  According to the present invention, link-down due to a link failure of the user network interface (UNI) between user connection devices connected by the user network interface (UNI) via the packet transport network is performed in the packet transport network. It is possible to realize a link-down transfer function that immediately transmits to a facing connection device.

It is a figure which shows an example of the packet transport network to which link down transfer is applied. It is a figure which shows the example of a link down transfer operation | movement at the time of a path protection structure. It is a figure which shows an example of a VSM frame format. It is a figure which shows the operation example at the time of link down of an ether interface. It is a figure which shows the operation example of the link down transfer at the time of the one side link failure of a relay area. It is a figure which shows the operation example of the link down transfer at the time of the both-sides link failure of a relay area. It is a figure which shows the operation example of link down cancellation | release at the time of the recovery | restoration of the both-sides link failure of a relay area. It is a figure which shows the example of an operation | movement sequence of link down cancellation | release at the time of the recovery | restoration of the both-sides link failure of a relay area. It is explanatory drawing of a link down transfer function.

[1] Transfer of Ring-Down Information An outline of the operation of link-down transfer according to the present invention will be described with reference to FIG. In FIG. 1, as an example, a packet transport network is configured by ring-shaped network elements (NE # 1) to (NE # 6), and the network element (NE # 1) and the network element (NE # 4) are connected to Ethernet. The connection form in which the first and second connection devices (SW # 1, SW # 2) are connected by the interface circuits A, B is shown.

  In order to transmit path maintenance and operation management (OAM) information, the network element (NE # 1) and the network element (NE # 4) are respectively provided with maintenance end points (MEP: Maintenance Entity Group End Point) indicated by ▼ in FIG. ) In advance is constructed between the network element (NE # 1) and the network element (NE # 4).

  A link failure state change (link down occurrence / recovery) in one of the network elements (NE # 1) or the network element (NE # 4) is a VSM (Vendor specific OAM message) in MPLS-TP. ; Vendor-specific OAM defined in ITU-T Y.1731) frame is used to transfer to the opposite Ethernet interface via the main signal transmission path (<< 1 >>, << 2 >> in the figure). At this time, if the path protection in which the working path and the protection path are set is configured in the packet transport network, the VSM frame is transmitted to both the working path and the protection path.

  In addition, a link failure state change (link disconnection / recovery) in a relay section between the network element (NE # 1) and the network element (NE # 4) is a path continuity check (Path-Continuity) as a transmission means. Main signal transmission using Path Alarm Indication Signal (Path-AIS) inserted by detecting continuity of alarm (LOC) by section continuity check (LOC) Transfer through the road. The path alarm indication signal (Path-AIS) is terminated at the maintenance end point (MEP), and the maintenance end point (MEP) transmits a VSM frame indicating a link failure state to the opposite Ethernet interface.

With the link-down transfer function, the opposite network element that has received the notification of the link failure information performs shutdown control under the following implementation conditions.
(1) When a link down of the Ethernet interface << 1 >> of the network element (NE # 1) is detected, the Ethernet interface << 2 >> of the network element (NE # 4) is shut down.

(2) When a link down of the Ethernet interface << 2 >> of the network element (NE # 4) is detected, the Ethernet interface << 1 >> of the network element (NE # 1) is shut down.
(3) When a link failure is detected in a relay path between A and B including the link failure in the relay section <1> to <12> in the packet transport network, the Ethernet interfaces << 1 >> and << 2 >> are shut down. .

  In order to implement the shutdown control due to the ether interface failure in the above-described shutdown control implementation conditions (1) and (2), the following operation is performed. When the occurrence of link down is detected, a VSM frame indicating that there is a link down failure is transferred. The VSM frame indicating that there is a link-down failure may be configured such that a CSF (Client Signal Fail) data field is provided in the option area of the VSM frame and “1” is set in the CSF data field.

  When a VSM frame is received, shutdown control is performed on the Ethernet interface after a predetermined protection time has elapsed. When path protection is configured, the transmitting side transmits a VSM frame to both the working and protection paths, and the receiving side checks the VSM frame received on the working path.

  In order to perform shutdown due to a link failure in the relay section <1> to <12> in the above-described shutdown control implementation condition (3), the operation is as follows. When a packet transfer continuity confirmation (CCM) related alarm is received or a path alarm indication signal (Path-AIS) is received, shutdown control of the Ethernet interface is performed after a predetermined protection time has elapsed.

  FIG. 2 shows an example of link-down transfer operation in the path protection configuration. In FIG. 2, the working system path is represented by a solid line, and the backup system path is represented by a broken line. As shown in FIG. 2, when path protection is configured, the protection time has elapsed when the above implementation condition (3) occurs for the relay path of the active path selected on the receiving side. Later, shutdown control is performed. Shutdown control is not performed when a failure occurs in the backup path relay path.

[2] Conditions for link-down transfer As a failure subject to link-down transfer,
(1) There is an Ethernet interface failure on the user network interface (UNI) side, and (2) a relay section failure on the network network interface (NNI) side. And

An example of an Ethernet interface failure is shown in Table 1 below.

An example of a relay section failure is shown in Table 2 below.

In Table 2, a to e are faults detected by path continuity confirmation (CCM).
a's Loss of Continuity is loss of continuity,
b's Unexpected MEG Level is inconsistent with the expected MEG level,
c Misserge does not match the expected MEG identification information,
d Unexpected MEP does not match expected MEP identification information,
e's Unexpected Period does not match the expected transmission period,
The AIS of f is an alarm generated by the network element (NE) when a failure is detected due to the loss of continuity (LOC) in the section continuity confirmation (CCM).

[3] VSM frame An MPLS-TP VSM frame is used as a transmission means for link down transfer. The VSM frame is transmitted / received through a transfer path between maintenance end points (MEP) arranged in advance as indicated by ▼ in FIG. 1 or FIG. FIG. 3 shows an example of the VSM frame format. A frame in which a setting value of an OUI (Organizationally Unique Identifier) field included in this frame format matches a predetermined unique value (unique code) is terminated at a maintenance end point (MEP).

  A CSF (Client Signal Fail) data field indicating the presence / absence of link down failure transfer is provided in the VSM data of the VSM frame, and a link down failure state is notified using the CSF data field and the SubOpCode field. Can do.

  As an example, when “1” and CSF data field “1” are set in the SubOpCode field, “link down transfer is present”, and when “1” and CSF data field “0” are set in the SubOpCode field, “link down transfer” “None” can be represented.

  Since the VSM frame may be lost during the transfer path, the maintenance endpoint (MEP) on the transmission side of the VSM frame receives the VSM frame so that the link failure information is reliably received at the opposite maintenance endpoint (MEP). Send regularly. The transmission interval of the periodic transmission of the VSM frame varies depending on the hardware or software configuration of the periodic transmission unit of the VSM frame and the accuracy required for the link-down transfer time. For example, the transmission interval of 1 second is periodically transmitted. It can be.

  However, at the timing of occurrence of a failure (failure in either Table 1 or Table 2) that is a condition for performing link-down transfer, and the timing of failure release (release of all failures in Tables 1 and 2), periodic transmission is performed. Regardless of the transmission cycle, the CSF data field is immediately updated and the VSM frame is transmitted.

  Further, when a VSM frame (CSF data “1”) indicating the presence of a link failure is received from the relay section side of the network interface (NNI), the user network interface ( Even when the Ethernet interface on the UNI side is in a link-down state, the VSM frame (CSF data “1”) indicating the presence of a link failure is not transmitted to the reverse relay network interface (NNI) side.

  The VSM frame receiving side maintenance endpoint (MEP) checks the normality of VSM frame reception based on FCS (Frame Check Sequence) information and each field value (excluding SubOpCode and CSF data field values). Is the VSM frame discard process, and if normal, thereafter, the presence or absence of a link down failure is determined from the values of the SubOpCode and CSF data fields.

  As a condition for determining whether or not there is a link down failure, when a VSM frame with a CSF data field “1” is received once, it is determined that there is a link failure, and when a VSM frame with a CSF data field “0” is received once, a link It can be configured to determine that the failure has been cleared.

  Alternatively, as a determination condition for canceling a link failure, a VSM frame of the CSF data field “1” may not be received for a period of transmission cycle × n (n ≧ 2). This can be a countermeasure against the loss of a VSM frame indicating failure recovery information in the middle of the transfer path.

[4] Shutdown control The network element at the maintenance endpoint that has received the transfer of the VSM frame notifying the link down state performs the shutdown control. However, the switching of redundant paths in the packet transport network by the MPLS-TP method is faster than the packet level path switching in the user connection devices (SW # 1) and (SW # 2). It is desirable not to perform shutdown control when the rescue means is activated by switching redundant paths in the packet transport network according to the method.

  Therefore, a shutdown protection time exceeding the time required for switching the redundant path in the packet transport network is provided from when the VSM frame is received or when any of the failure factors a to f in Table 2 is detected until the shutdown control is performed. It is desirable that the shutdown protection time be variably set according to the redundant path switching time. For example, the shutdown protection time can be set to be variable between 0 and 3 seconds.

  For link failures in the packet transport network, if link failure can be remedied by providing a packet path redundancy function that can be switched instantaneously within the shutdown protection time, link down transfer does not work, Otherwise, it is possible to switch to the backup route by link-down transfer, and it is possible to minimize the signal communication interruption time.

  On the other hand, in order to avoid a disturbance in the shutdown state at the time of link failure recovery, a protection time is provided from the detection of release of the link failure by the VSM frame or from the recovery of all alarm factors a to f in Table 2 until the shutdown release. . As an example, the shutdown release protection time can be set variable between 0 and 3 seconds.

[5] VSM frame re-transmission protection After canceling the shutdown at the time of link failure recovery, the VSM frame re-transmission operation (re-transmission) is not activated as a link failure until the link up at the Ethernet interface. A protection time is provided for transmission of The VSM frame transmission protection time is set to a time sufficient for completion of auto-negotiation at the Ethernet interface, and can be set to 0.3 seconds as an example.

  FIG. 4 shows an operation example at the time of link down of the Ethernet interface. This operation example is an operation example in which “1” is set in the CSF data field of the VSM frame and the link down is transferred to the opposite Ethernet interface when the Ethernet interface is linked down.

The operation of link-down transfer will be described below.
(1) The network element (NE # 1) detects a failure of the Ethernet interface.
(2) When the network element (NE # 1) detects a failure of the Ethernet interface, the network element (NE # 1) generates and transmits a VSM frame (CSF data field “1”).
(3) The network elements (NE # 2) and (NE # 3) transmit the VSM frame.

(4) The network element (NE # 4) receives the VSM frame (CSF data field “1”).
(5) The network element (NE # 4) that has received the VSM frame (CSF data field “1”) shuts down the target Ethernet interface port after the shutdown protection time has elapsed.

(6) The network element (NE # 4) detects link-down of the Ethernet interface with the connection device (SW # 2) in order to disconnect the Ethernet interface link with the connection device (SW # 2). However, the network element (NE # 4) that has already received the VSM frame from the upstream side does not transmit the VSM frame to the upstream network element (NE # 1) side in order to prevent infinite loop transfer of the VSM frame. Not performed.

FIG. 5 shows an operation example of link-down transfer when a one-side link failure occurs in the relay section. The link down transfer operation will be described below.
(1) If a failure occurs in the link from the network element (NE # 2) to the network element (NE # 3), the network element (NE # 3) detects loss of continuity (LOC). .

(2) When the network element (NE # 3) detects loss of continuity (LOC), the network element (NE # 3) sends a path alarm indication signal (Path-AIS: Path Alarm Indication Signal) to the downstream side (network element (NE # 4) side). The network element (NE # 3) transfers a remote defect indication (RDI) signal to the upstream side.
(3) The network element (NE # 4) detects a path alarm indication signal (Path-AIS) or loss of path continuity (Path-LOC).

(4) When the network element (NE # 4) at the maintenance end point detects the path alarm indication signal (Path-AIS) or the loss of path continuity (Path-LOC), it creates a VSM frame, and the network element (NE # 1) ) To transmit the VSM frame.
(5) The VSM frame is detected by the network element (NE # 1).

(6) The network element (NE # 4) detects the path alarm indication signal (Path-AIS) or the loss of path continuity (Path-LOC), so that after the shutdown protection time elapses, the Ethernet interface of the target path Shut down the port. Similarly, in the opposite network element (NE # 1), after the shutdown protection time elapses due to detection of the VSM frame, the port of the ether interface of the target path is shut down.

(7) The network element (NE # 1) detects the link down of the Ethernet interface with the connection device (SW # 1) in order to disconnect the link with the connection device (SW # 1). However, the network element (NE # 1) that has already received the VSM frame does not transmit the VSM frame to the network element (NE # 4) in order to prevent the infinite loop transfer of the VSM frame.

FIG. 6 shows an operation example of link-down transfer when both side links in the relay section fail. The link down transfer operation will be described below.
(1) If a failure occurs in a bidirectional link between the network element (NE # 2) and the network element (NE # 3), section continuity is established in the network elements (NE # 2) and (NE # 3). Detect loss (LOC).

(2) The network elements (NE # 2) and (NE # 3) send a path alarm indication signal (Path-AIS) to the downstream side of each path when detecting the loss of section continuity (LOC). Also, a remote failure indication (RDI) signal is transferred upstream of each path.
(3) The network elements (NE # 1) and (NE # 4) detect a path alarm display signal (Path-AIS) or a loss of path continuity (Path-LOC).

(4) The network elements (NE # 1) and (NE # 4) detect the path alarm indication signal (Path-AIS) or the loss of path continuity (Path-LOC), thereby indicating that there is a link failure. And transmits a VSM frame to the opposite device side.

(5) The network elements (NE # 1) and (NE # 4) are subject to detection after the passage of the shutdown protection time due to detection of a path alarm display signal (Path-AIS) or loss of path continuity (Path-LOC). Shut down the Ethernet interface port.

FIG. 7 shows an operation example of releasing the link down when the both-side link failure in the relay section is recovered. FIG. 8 shows an example of an operation sequence for releasing the link down. The operation for releasing the link down will be described below.
(1) Assume that the link failure has been recovered between the network elements (NE # 2) and (NE # 3), and the network elements (NE # 2) and (NE # 3) ) Recovery is detected.

(2) The network elements (NE # 2) and (NE # 3) stop sending the path alarm indication signal (Path-AIS) to each path when the loss of section continuity (LOC) is restored. In addition, transmission of a remote failure indication (RDI) signal is also stopped.
(3) In the network elements (NE # 1) and (NE # 4), detection of the path alarm display signal (Path-AIS) or loss of path continuity (Path-LOC) is stopped.

(4) When the detection of the path alarm indication signal (Path-AIS) or the loss of path continuity (Path-LOC) is stopped, the network elements (NE # 1) and (NE # 4) receive the CSF data of the VSM frame. “0” is set in the field, and a VSM frame indicating “no link down transfer” is transmitted to the opposite device side. The VSM frame is transmitted after a predetermined protection time has elapsed.

(5) The network elements (NE # 1) and (NE # 4) have passed the shutdown release protection time because the detection of the path alarm indication signal (Path-AIS) or loss of path continuity (Path-LOC) has stopped. After that, release the shutdown of the port of the target Ether interface.

  To prevent fluttering caused by variations in shutdown release operation time, VSM frame transmission factors (path alarm indication signal (Path-AIS), loss of path continuity (Path-LOC), link down) during shutdown release operation ) To prevent the VSM frame from being retransmitted for a certain period of time (a time sufficient to complete auto-negotiation at the Ethernet interface, for example, 0.3 seconds).

NE # 1 to NE # 6 Network element SW # 1, SW # 2 Connection device

Claims (5)

A link-down transfer method in a packet transport network that provides a point-to-point transfer path between first and second connection devices connected to a network element of a packet transport network by a user network interface (UNI).
When the network element connected to the first or second connection device detects the occurrence or recovery of a link failure in the transfer path, a maintenance operation management frame storing link down transfer presence / absence information is generated, Transmitting the maintenance operation management frame to an opposite network element of the transfer path;
The network element connected to the first or second connection device that has received the maintenance operation management frame storing the link down transfer presence / absence information is connected to the connection device according to the link down transfer presence / absence information. Performing a shutdown or releasing the shutdown; and
A link-down transfer method comprising:   Including a step of shutting down a link with the connection device after a protection time of a time required for switching a redundant path in the packet transport network, which is performed for a link failure in the packet transport network. The link-down transfer method according to claim 1.   As the maintenance operation management frame, a VSM (Vendor Specific OAM message) frame in MPLS-TP (Multi-Protocol Label Switching-Transport Profile) is used, and a field for storing presence / absence information of the link down transfer is used as a VSM of the VSM frame. The link-down transfer method according to claim 1, wherein the link-down transfer method is generated in data.   The maintenance operation management frame storing the link down transfer presence / absence information is periodically transmitted at a predetermined cycle, and when the occurrence of a link failure in the transfer path and the detection of link failure recovery, the maintenance operation management frame is immediately transmitted. The link-down transfer method according to claim 1, wherein transmission is performed.   When a maintenance operation management frame storing information indicating no link down transfer is received once when recovery from link failure in the transfer path is detected, or when occurrence of link failure in the transfer path is detected 5. The shutdown of the link with the connection device is canceled when the maintenance operation management frame storing the information with link down transfer transmitted is not received for at least two periods of the period. Link down transfer method.

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