JP2014027471A - Transmission device, control method for transmission device, and transmission system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To prevent a transmission system including a transmission device comprising a link path through function from being in a deadlock state, even when a failure occurs in a line.SOLUTION: A transmission device comprises first and second interfaces connected to first and second devices having a function for performing link path through control, respectively. The transmission device: transmits a first failure occurrence notification from the first interface, when detecting a line failure between the second interface and the second device; and does not perform link path through control on the second interface, in the case that a failure in a line between the second interface and the second device has been detected when the first interface receives a second failure occurrence notification showing that the first device has detected a line failure from the first device, or in the case that the first interface receives the second failure occurrence notification and a first link path through occurrence notification showing that the first device has executed link path through control.

Description

The present invention relates to a transmission apparatus, a transmission apparatus control method, and a transmission system, and more particularly to a transmission apparatus having a link pass-through function, a transmission apparatus control method, and a transmission system.

  In a network in which a plurality of transmission apparatuses are connected in series, a link pass-through function is known as a function for transmitting a link break in a certain section between transmission apparatuses to another transmission apparatus. The link pass-through function is a function in which when a line failure is detected in one line of a transmission apparatus that relays a signal between two lines, the transmission apparatus disconnects the link with the other line. Link disconnection is performed, for example, when the transmission apparatus stops sending data to the other line.

  FIG. 9 shows a configuration of a transmission system having a link pass-through function related to the present invention. A transmission system 500 illustrated in FIG. 9 includes switches 1 and 2 and transmission apparatuses 53 to 56. The transmission devices 53 to 56 have a link pass-through function. The line between the switch 1 and the switch 2 is duplicated by the line 1 and the line 2, and the data signal input / output to / from the switch 1 is transmitted to the switch 2 via either the line 1 or the line 2. Is done.

  A transmission device 53 is connected to the line 1 on the local side (switch 1 side), and a transmission device 54 is connected to the remote side (switch 2 side). In the line 2, a transmission device 55 is connected to the local side (switch 1 side), and a transmission device 56 is connected to the remote side (switch 2 side). The configuration of each device is symmetrical between the local side and the remote side. By simultaneously switching the switch 1 and the switch 2 to the same line side, the line 1 and the line 2 can be switched.

  The operation of the link pass-through function in the transmission system 500 of FIG. 9 will be described with reference to FIGS. 10 shows a case where a failure occurs in the line between the local transmission device 53 and the switch 1, and FIG. 11 shows a case where a failure occurs in the line between the remote transmission device 54 and the switch 2. FIG. 10 is a diagram illustrating an operation of a link pass-through function when a failure occurs in a line between a local transmission apparatus 53 and a remote transmission apparatus 54.

  First, FIG. 10 will be described. In FIG. 10, when a failure occurs in the line between the switch 1 and the transmission device 53, the transmission device 53 that is a local device transmits a failure occurrence notification to the transmission device 54. Further, when the switch 1 detects a line failure, the switch 1 switches the path to the line 2 side. Detection of a line failure in the switches 1 and 2 and the transmission apparatuses 53 to 56 may be performed, for example, when an input signal is interrupted. On the other hand, when receiving a failure occurrence notification from the transmission device 53, the transmission device 54 performs control based on the link pass-through function (link pass-through control), stops sending data from the transmission device 54 to the switch 2, and disconnects the link. . When the switch 2 detects that the link with the transmission device 54 is broken, the switch 2 switches the path from the line 1 to the line 2. In this way, when a failure occurs in the line 1, the switches 1 and 2 can switch the route to the line 2.

  Next, FIG. 11 will be described. In FIG. 11, when a failure occurs in the line between the transmission device 54 and the switch 2, the transmission device 54 that is a remote device transmits a failure occurrence notification to the transmission device 53. Further, when the switch 2 detects a failure of the line with the transmission device 54, the switch 2 switches the path to the line 2 side. When the transmission apparatus 53 receives the failure occurrence notification from the transmission apparatus 54, the transmission apparatus 53 performs link pass-through control, and disconnects the link between the switch 1 and the transmission apparatus 53. When the switch 1 detects that the link with the transmission apparatus 53 is broken, the switch 1 switches the path from the line 1 to the line 2. Thus, also in the case of FIG. 11, when a failure occurs in the line 1, the switches 1 and 2 can switch the route to the line 2.

  Next, FIG. 12 will be described. FIG. 12 shows a case where a failure occurs between the transmission device 53 that is the local device and the transmission device 54 that is the remote device. In this case, each of the transmission devices 53 and 54 recognizes that a failure has occurred between the device facing itself on the opposite side of the switch 1 or 2 and the own device. Here, the transmission devices 53 and 54 perform link pass-through control in the same manner as when the failure notification is received, and disconnect the link between the transmission device 53 and the switch 1 and between the transmission device 54 and the switch 2, respectively. To do. When the switches 1 and 2 detect that the link between the transmission device 53 and the transmission device 54 is broken, the switch 1 and 2 switches the route from the line 1 to the line 2. Thus, also in the case of FIG. 12, when a failure occurs in the line 1, the switches 1 and 2 can switch the route to the line 2.

  As described above, in any of FIGS. 10, 11 and 12, the links 1 and 2 of the transmission devices 53 and 54 can cause the switches 1 and 2 to report that a failure has occurred on the path between the two switches. Can be recognized by the occurrence of As a result, the transmission system 500 can switch the route to the line 2 which is a redundant line.

  Patent Documents 1 and 2 disclose the configuration of a system including a transmission apparatus having a link pass-through function.

JP2012-100086A JP 2011-055381 A

  FIG. 13 is a diagram for explaining the operation after the link disconnection of the transmission system having the link pass-through function, related to the present invention. FIG. 13 shows only the line 1 side of the switches 1 and 2 and the transmission apparatuses 53 and 54 that were operated before the line switching.

  First, the transmission device 53 detects a failure occurrence with the switch 1 and transmits a failure occurrence notification to the transmission device 54. The transmission device 54 performs link pass-through control based on the received failure notification and disconnects the link between the transmission device 54 and the switch 2. When the link with the switch 2 is disconnected, the transmission apparatus 54 transmits a failure occurrence notification due to the link disconnection to the transmission apparatus 53.

  Here, the transmission device 53 performs link pass-through control upon receiving the failure occurrence notification from the transmission device 54, and stops sending data from the transmission device 53 to the switch 1. That is, the transmission device 53 performs secondary link pass-through control on the line between the transmission device 53 and the switch 1 by the link pass-through control that occurs in the device 54 that is opposed to the transmission device 53 due to the failure detected by itself.

  Next, an operation when the transmission system 500 enters a deadlock state by secondary link pass-through control will be described with reference to FIG. Even after the failure between the switch 1 and the transmission device 53 is recovered, the transmission device 53 is disconnected from the link between the switch 1 and the transmission device 53 by the link pass-through control based on the failure notification received from the transmission device 54. Is maintained. For this reason, even if the failure is recovered, the transmission device 53 does not transmit a failure recovery notification to the transmission device 54. Since the transmission device 54 does not receive the failure recovery notification from the transmission device 53 even though the failure between the switch 1 and the transmission device 53 has been recovered, the link pass-through control of the transmission device 54 is not released, and transmission is performed. The link between device 54 and switch 2 is not restored. Then, since the link between the transmission device 54 and the switch 2 is not recovered, the transmission device 54 does not transmit a failure recovery notification to the transmission device 53. For this reason, the link pass-through control of the transmission apparatus 53 is not released, and the link between the transmission apparatus 53 and the switch 1 is not restored. That is, the transmission device 53 and the transmission device 54 are in a deadlock state where they cannot escape from the link disconnection state.

  In general, when a transmission apparatus falls into a deadlock state, the system configured by the transmission apparatus also does not function normally, and thus the entire transmission system may need to be restarted. In addition, in order to restart a transmission apparatus once in a deadlock state, work such as dispatching maintenance personnel to a place where the transmission apparatus can be managed also occurs.

  As described above, in link pass-through control, there is a problem that the link pass-through control is performed between the opposing devices, so that a deadlock state may occur and the link disconnection state may not be recovered. Patent Documents 1 and 2 do not disclose means for solving such problems.

  An object of the present invention is to provide a technique for solving the problem of preventing a deadlock state from occurring even if a line failure occurs in a transmission system including a transmission apparatus having a link pass-through function. .

  The transmission device of the present invention has a first interface connected to a first device having a function of performing link pass-through control, a second interface connected to a second device, and a function of performing link pass-through control. And a first failure occurrence notification is transmitted from the first interface when a failure of the line between the second interface and the second device is detected, and the first interface When a second failure occurrence notification indicating that the device has detected a line failure is received from the first device, a failure in the line between the second interface and the second device is detected. Or a first link indicating that the second failure occurrence notification is performed in the first interface and link pass-through control is performed in the first device. When receiving the pass-through occurrence notification, and a control unit which does not implement the link pass-through control for the second interface.

  In the transmission apparatus control method according to the present invention, when a failure of a line between the second device connected to the second device and the second device is detected, a first failure notification is sent from the first interface. A line between the second interface and the second apparatus when the second apparatus receives a second failure occurrence notification indicating that the first apparatus has detected a line failure. A link pass-through occurrence notification indicating that link pass-through control has been executed in the first device when the second interface occurrence notification is received at the first interface. When received from the first device, link pass-through control for the second interface is not performed.

  The present invention has an effect of making it possible to prevent a deadlock state from occurring in a transmission system including a transmission device having a link pass-through function.

The figure which shows the structure of the transmission system of 1st Embodiment. The figure for demonstrating the link pass-through operation | movement in the transmission system of 1st Embodiment. The figure for demonstrating the link pass-through operation | movement in the transmission system of 1st Embodiment. 6 is a flowchart illustrating the operation of the transmission apparatus according to the first embodiment. The figure which shows the structure of the transmission system of 2nd Embodiment. The figure for demonstrating operation | movement of the transmission system of 2nd Embodiment. The flowchart which shows operation | movement of the transmission apparatus used for the transmission system of 2nd Embodiment. The figure which shows the structure of the transmission apparatus of 3rd Embodiment. The figure which shows the structure of the transmission system provided with the link pass-through function relevant to this invention. The figure which shows operation | movement of a link pass through function when a failure generate | occur | produces in the line | wire between the transmission apparatus and switch of a local side. The figure which shows operation | movement of a link pass through function when a failure generate | occur | produces in the line | wire between the transmission apparatus and switch of a remote side. The figure which shows operation | movement of a link pass through function when a failure generate | occur | produces in the line | wire between the transmission apparatus of a local side, and the transmission apparatus of a remote side. The figure for demonstrating the operation | movement after the link cutting | disconnection of the transmission system provided with the link pass-through function relevant to this invention. The figure for demonstrating operation | movement when a transmission system will be in a deadlock state.

(First embodiment)
The configuration of the transmission system according to the first embodiment of the present invention will be described with reference to FIG. FIG. 1 is a diagram illustrating a configuration of a transmission system according to the first embodiment.

  In the transmission system 100 shown in FIG. 1, the network is duplicated by the lines 1 and 2. Line 1 and line 2 can be switched by switch 1 and switch 2. Transmission lines 3 and 5 are connected to the local side (switch 1 side) and transmission apparatuses 4 and 6 are connected to the remote side (switch 2 side), respectively. The configuration of each device is symmetrical between the local side and the remote side. The transmission apparatuses 3 to 6 have a link pass-through function, and also have interfaces on the switch 1 or switch 2 side and on the opposite transmission apparatus side.

  The transmission devices 3 to 6 are media converters that mutually convert an electric signal and an optical signal, for example. By using a media converter as the transmission devices 3 to 6, electrical signals are transmitted between the switch 1 and the transmission devices 3 and 5 and between the switch 2 and the transmission devices 4 and 6. The transmission system 100 can be constructed so as to transmit optical signals between the apparatus 4 and between the transmission apparatus 5 and the transmission apparatus 6. With such a configuration, the transmission distance between the switch 1 and the switch 2 can be greatly extended.

(Description of operation of the first embodiment)
The basic operation at the time of link pass-through control in the transmission system 100 shown in FIG. 1 is the same as the operation already described for the transmission system 500 with reference to FIGS.

  The transmission apparatuses 3 to 6 included in the transmission system 100 according to the first embodiment include a function for avoiding a deadlock state due to the link pass-through function in addition to the functions of the transmission apparatuses 53 to 56 included in the transmission system 500. An operation of avoiding the deadlock state in the transmission system 100 including the transmission apparatuses 3 to 6 will be described with reference to FIGS.

  2 and 3 are diagrams for explaining a link pass-through operation in the transmission system 100 according to the first embodiment shown in FIG. 2 and 3 show only the line 1 side of the transmission system 100. FIG.

  In FIG. 2, it is assumed that a failure has occurred in the line between the switch 1 and the transmission apparatus 3. The transmission device 3 detects the occurrence of a failure with the switch 1 and sends a failure occurrence notification to the transmission device 4. The transmission device 4 performs link pass-through control based on the received failure notification, and disconnects the link with the switch 2 by stopping the transmission of data to the switch 2. The switch 2 switches the line for data transmission from the line 1 to the line 2 (not shown) when the link with the transmission device 4 is disconnected.

  When the link with the switch 2 is disconnected, the transmission device 4 transmits a failure occurrence notification due to the link disconnection to the transmission device 3. Here, when the transmission apparatus 3 of the present embodiment detects a failure, the transmission apparatus 3 does not perform link pass-through control even if a failure occurrence notification is received from the opposite transmission apparatus 4. In FIG. 2, since the transmission device 3 detects a failure in the line with the switch 1, link pass-through control is not performed even when a failure occurrence notification is received from the transmission device 4. That is, the transmission device 3 does not stop sending data to the switch 1. For this reason, the link between the switch 1 and the transmission apparatus 3 is not disconnected by the link pass-through control.

  FIG. 3 is a diagram illustrating an operation when the failure between the transmission apparatus 3 and the switch 1 is recovered following the state of FIG. As described with reference to FIG. 2, the transmission device 3 receives the failure notification from the transmission device 4, but does not disconnect the link between the switch 1 and the transmission device 3 by link pass-through control. For this reason, when the failure of the line between the switch 1 and the transmission apparatus 3 is restored, the link between the switch 1 and the transmission apparatus 3 is also restored. When the failure between the switch 1 and the transmission device 3 is recovered, the transmission device 3 transmits a failure recovery notification to the transmission device 4. The transmission device 4 releases the link pass-through control with the switch 2 by the received failure recovery notification, and recovers the link with the switch 2. When the link with the switch 2 is restored, the transmission device 4 transmits a failure recovery notification to the transmission device 3. However, since the transmission device 3 does not perform link pass-through control, the transmission device 3 does not perform control related to the link pass-through function even when a failure recovery notification is received from the transmission device 4.

  When the links between the switches 1 and 2 and the transmission apparatuses 3 and 4 are restored, the switches 1 and 2 may switch back the line for transmitting data from the line 2 to the line 1.

  The operation flow of the transmission apparatus that performs the operation described with reference to FIGS. 2 and 3 will be described with reference to the flowchart illustrating the operation of the transmission apparatus in FIG. Hereinafter, an operation flow will be described by taking the transmission apparatus illustrated in FIG. 1 as an example. The operation flow shown in FIG. 4 is common to all the transmission apparatuses 3 to 6.

  First, the transmission apparatus checks whether or not the cause of link pass-through control has occurred in itself. That is, it is confirmed whether or not the transmission apparatus detects a failure of the connected line (step S1 in FIG. 4). When a failure has occurred in the opposite device (for example, the transmission device 4 for the transmission device 3) when the transmission device has not detected a failure of the connected line (step S1: No), Since the failure occurrence notification is not due to its own failure, the transmission device performs link pass-through control by the failure occurrence notification received from the opposite device (step S3). The occurrence of a failure in the opposite device can be known when the own device receives a failure occurrence notification from the opposite device.

  On the other hand, when a failure is detected in the transmission device itself (step S1: Yes), the opposite device that has received the failure occurrence notification performs link pass-through control. As a result, the transmission apparatus receives a failure occurrence notification from the opposite apparatus. Here, the failure occurrence notification received from the opposite device when the transmission device itself has detected a failure is highly likely due to a link break that occurs as a result of the opposite device performing link pass-through control due to its own failure. . For this reason, even when a failure notification is received from the opposite device, the transmission device does not perform link pass-through control. Thereby, the transmission apparatus 3 avoids secondary link pass-through control.

  Thereafter, after the failure of the transmission device 3 itself is recovered and the link with the switch 1 is also recovered (step S10: Yes, step S11: Yes), the flow is a step when a predetermined protection time has elapsed (step S12). Return to S1. As described above, the transmission apparatus that has detected the occurrence of the failure does not perform any link pass-through control until the failure of the own apparatus is recovered, the link is recovered, and the protection time elapses.

  Here, the protection time in step S12 means that the device that caused the failure (cause device) sends a failure recovery notification due to link recovery to the opposite device, the opposite device releases the link pass-through control, and the link of the opposite device. Is the total time required for the cause device to receive the failure recovery notification from the opposite device.

  After step S12, if there is no failure in the transmission device itself (step S1: No) and a failure occurs in the opposite device (step S2: Yes), there is a high possibility that a failure has occurred in the opposite device. For this reason, the transmission apparatus performs link pass-through control (step S3) and disconnects the link with the switch 1.

  Steps S3 and after are operations when a failure notification is received from the opposite device when there is no failure in the own device. When the transmission apparatus detects a link disconnection with the switch 1 by performing the link pass-through control in step S3 (step S4: Yes), the transmission apparatus transmits a failure occurrence notification to the opposite apparatus (transmission apparatus 4) ( Step S5).

  Thereafter, when the failure notification received from the opposite device is canceled (step S6: No), the transmission device cancels the link pass-through control (step S7). When the link is restored by releasing the link pass-through control of the transmission apparatus 3 (step S8: Yes), the transmission apparatus transmits a failure recovery notification to the opposite apparatus (step S9), and returns to step S1.

  As described above, in the transmission system 100 according to the first embodiment, a transmission apparatus that detects a failure receives a failure occurrence notification from the opposite transmission apparatus until the failure of the transmission apparatus is recovered. Does not implement link pass-through control. As a result, in the transmission system 100 of the first embodiment, when the failure that caused the link pass-through control is recovered, the link is recovered without the transmission device falling into a deadlock state.

  As described above, the transmission system 100 according to the first embodiment is capable of recovering from a broken link state without falling into a deadlock state in a system in which transmission devices having a link pass-through function are opposed to each other. Play. And since the transmission system of 1st Embodiment can operate | move stably, without a transmission apparatus falling into a deadlock state, the effect that it can contribute also to the improvement of the reliability of the network including a transmission apparatus is also possible. Play.

(Second Embodiment)
In the transmission system 100 according to the first embodiment, when the transmission apparatus 3 detects a failure of the line with the switch 1, the switch 1 is received when a failure occurrence notification is received from the opposite transmission apparatus 4. The link pass-through control for the line between and was not performed. In the second embodiment, an opposing transmission apparatus that performs link pass-through control also transmits information (link pass-through occurrence notification) indicating that link pass-through control is performed when a failure occurrence notification is transmitted. . The transmission apparatus that has received the failure occurrence notification does not perform link passthrough control when the failure occurrence notification includes a link passthrough occurrence notification.

  FIG. 5 is a diagram illustrating a configuration of a transmission system according to the second embodiment. The overall configuration of the transmission system 200 of the second embodiment is basically the same as the transmission system 100 shown in FIG. That is, the transmission system 200 includes switches 1 and 2 and transmission devices 23 to 26. The transmission system 200 is different from the transmission system 100 only in that transmission devices 23 to 26 are provided instead of the transmission devices 3 to 6.

  The operation of the transmission system 200 according to the second embodiment will be described with reference to FIG. FIG. 6 is a diagram for explaining the operation of the transmission system 200 according to the second embodiment of this invention. FIG. 6 shows only the line 1 side of the transmission system 200.

  First, the transmission device 23 detects a failure with the switch 1 and notifies the transmission device 24 of the failure. Since the transmission device 23 does not perform link pass-through control, the transmission device 24 is notified only of the failure occurrence notification and does not transmit the link pass-through occurrence notification. Since the transmission device 24 does not include the link pass-through occurrence notification in the received failure occurrence notification, the transmission device 24 performs link pass-through control for the switch 2 and disconnects the link with the switch 2. When the link with the switch 2 is disconnected, the transmission device 24 transmits a failure occurrence notification due to the link disconnection to the transmission device 23. Here, since the transmission device 24 performs the link pass-through control, the transmission device 24 transmits a link pass-through occurrence notification to the transmission device 23 in the failure occurrence notification. Since the transmission device 23 detects that the failure notification received from the transmission device 24 includes the link pass-through occurrence notification, the transmission device 23 does not disconnect the link by the link pass-through control with respect to the line with the switch 1. . As a result, when the failure between the switch 1 and the transmission device 23 is restored, the link between the switch 1 and the transmission device 23 is also restored.

  FIG. 7 is a flowchart illustrating operations of the transmission apparatuses 23 to 26 used in the transmission system 200 according to the second embodiment. Hereinafter, the operation flow of the transmission apparatus will be described on the assumption of the configuration of FIG. The operation flow shown in FIG. 7 is common to all the transmission apparatuses 23 to 26.

  When the transmission device 23 receives the failure occurrence notification from the opposite device (transmission device 24) (step S21 in FIG. 7: Yes), it confirms whether the link pass-through occurrence notification is received (step S22). If the link pass-through occurrence notification has not been received (step S22: No), it can be determined that this failure occurrence notification has occurred due to the opposite device, and the transmission device performs link pass-through control (step S23). On the other hand, if the transmission device has received the link pass-through occurrence notification from the opposite device (step S22: Yes), this failure occurrence notification is received as a result of the link pass-through control of the opposite device due to the failure of the own device. It can be judged that. When the link pass-through occurrence notification has been received, the transmission device does not perform link pass-through control even if it receives a failure occurrence notification from the opposite device. Thereby, secondary link pass-through control is avoided.

  If the transmission device does not receive the link pass-through occurrence notification (step S22: No), the transmission device performs link pass-through control (step S23) and disconnects the link between the own device and the switch 1 (step S24: Yes). ), A link disconnection occurrence notification is transmitted to the opposite device (step S25). Here, since the transmission apparatus performs link pass-through control, in step S25, a transmission notification of link pass-through is also transmitted to the opposite apparatus.

  When the failure recovery notification is received from the opposite device (step S26), the transmission device ends the link pass-through control (step S27), and waits for the recovery of the link between the transmission device and the switch 1 (step S38). When the link with the switch 1 is restored (Step S28: Yes), the opposite device is notified of the restoration of the link (Step S29).

  As described above, in the transmission system according to the second embodiment, when the transmission apparatus performs link pass-through control, the transmission apparatus notifies the opposite apparatus of the link pass-through occurrence together with the failure occurrence notification. Send. Then, the transmission apparatus that has received the link pass-through occurrence notification does not perform link pass-through control. As a result, since the transmission system of the second embodiment does not perform secondary link pass-through control, the transmission system of the second embodiment can be recovered from the broken link state without falling into a deadlock state. And since the transmission system of 2nd Embodiment can operate stably, without the transmission apparatus falling into a deadlock state, it can also contribute to the reliability of the network including a transmission apparatus.

(Third embodiment)
FIG. 8 is a diagram illustrating the configuration of the transmission apparatus according to the third embodiment of the present invention. A transmission apparatus 300 according to the third embodiment includes a first interface 301 connected to a first apparatus (not shown), a second interface 302 connected to a second apparatus (not shown), a control unit 303, Is provided. Here, the first device has a function of performing link pass-through control (link pass-through function).

  When detecting a failure between the second interface and the second device, the control unit 303 transmits a failure occurrence notification to the first device. The control unit 303 disconnects the link between the second interface and the second device if a failure has occurred in the own device upon receiving the failure notification from the first device. To do.

  The transmission apparatus 300 having such a configuration operates as follows. That is, when the link with the second device is broken, the transmission device 300 transmits a failure occurrence notification to the first device. After that, when the transmission apparatus 300 receives the failure notification from the first apparatus, the transmission apparatus 300 itself has a broken link with the second apparatus. Do not break the link with other devices.

  Whether or not a failure has occurred in the device itself can be known, for example, by whether or not the device has detected a failure. Alternatively, it may be determined that a failure has occurred in the own device by receiving a notification from the opposite device indicating that the opposite device has performed link pass-through control due to a failure in the own device.

  The transmission apparatus 300 does not disconnect the link between the second interface 302 and the second apparatus when a failure has occurred in the own apparatus. Thereby, the link between the second interface 302 and the second device is restored when the failure of the second interface is restored by the same operation as the operation described in FIG. 3 of the first embodiment.

  Therefore, the transmission device 300 has the same effect as the first and second embodiments that enables recovery from the link disconnection state without falling into a deadlock state when the failure of the own device is recovered.

  The configuration of the transmission apparatus 300 according to the third embodiment can also be applied to the transmission apparatuses 3 to 6 described in the first embodiment and the transmission apparatuses 23 to 26 described in the second embodiment.

  As mentioned above, although this invention was demonstrated using the 1st-3rd embodiment, this invention is not limited to the said embodiment. Various changes that can be understood by those skilled in the art can be made to the configuration and details of the present invention within the scope of the present invention.

1, 2 switches 3-6, 23-26, 53-56, 300 transmission apparatus 100, 200, 500 transmission system 301 first interface 302 second interface 303 control unit

Claims (4)

A first interface connected to a first device having a function of performing link pass-through control;
A second interface connected to the second device;
A function of performing link pass-through control, and when detecting a failure of a line between the second interface and the second device, a first failure occurrence notification is transmitted from the first interface, and the first interface Between the second interface and the second device when the second device has received a second failure notification indicating that the first device has detected a line failure at the interface. When a line failure is detected, the second failure occurrence notification is received at the first interface and the first link pass-through occurrence notification indicating that link pass-through control has been executed at the first device is received. A controller that does not perform link pass-through control for the second interface;
A transmission apparatus comprising:   When the control unit performs link pass-through control for the second interface based on the second failure occurrence notification, the first failure occurrence notification and second link pass-through occurrence notification The transmission device according to claim 1, wherein the transmission device is transmitted to the first device.   A transmission system in which the transmission devices according to claim 1 or 2 are connected to face each other. When a failure of the line between the second device connected to the second device and the second device is detected, a first failure occurrence notification is transmitted from the first interface to the first device;
When detecting a line failure between the second interface and the second device when receiving a second failure occurrence notification indicating that the first device has detected a line failure. Or a link pass-through occurrence notification indicating that link pass-through control has been executed in the first device when the second failure occurrence notification is received at the first interface from the first device. In this case, the link pass-through control for the second interface is not performed.
A method for controlling a transmission apparatus.

Images