JP2020129783A - Router system and packet transmission determination method - Google Patents

Abstract

To provide a router system capable of preventing interruption of packet transfer while using IGMP.SOLUTION: An IGMP processing unit 2 periodically sends a predetermined query in IGMP to a host. When a report processing unit 3 receives a report transmitted by the host in response to the predetermined query, and transmits the received report to the IGMP processing unit 2, and transmits a copy of the report received from the host to the IGMP processing unit 2 when the host becomes unable to transmit the report in response to the predetermined query. The IGMP processing unit 2 continues to determine that the packet transmitted from the outside is transmitted to the host as long as a state continues in which the report is received from the report processing unit 3 a predetermined number of times or more within a predetermined time period.SELECTED DRAWING: Figure 9

Description

The present invention relates to a router system conforming to the Internet Group Management Protocol (IGMP) and a packet transmission determination method applied to the router system.

In broadcasting systems, high-bandwidth systems such as 4K and 8K are being developed, and Ethernet (registered trademark) is being used as an interface for video packets. For this reason, an IP (Internet Protocol) multicast router has come to be applied to the routing instead of the SDI router.

When an IP multicast router is applied to routing, multicast transfer by IGMP is suitable for transferring the same resource to a plurality of output destinations.

FIG. 10 is a schematic diagram showing an example of operation of a general router to which IGMP is applied.

The router 101 sends a packet sent from the outside to the host 102. That is, the router 101 transfers a packet sent from the outside to the host 102.

The router 101 also periodically sends a predetermined query in IGMP to the host 102. This predetermined query is specifically a General Query in IGMP. Further, the General Query in IGMP is also called a multicast membership query. Hereinafter, the above-mentioned predetermined query will be referred to as General Query.

When the host 102 receives the general query from the router 101, the host 102 transmits a report (Report) to the router 101 within a certain time after the reception of the general query. The router 101 receives the Report.

When the router 101 detects that the Report has not been sent from the host 102 for a certain period of time, it stops the packet transfer to the host 102. The operation of stopping the packet transfer when it is detected that the Report is not sent for a certain period of time is the operation of IGMP.

Patent Document 1 describes that a subscriber station creates an IGMP membership report message in response to a membership querier message received from a center station and sends the message to the center station.

JP 2000-125277 A

As described above, when the IP multicast router is applied to the routing, the multicast transfer by IGMP is suitable for transferring the same resource to a plurality of output destinations.

However, when the general router 101 to which the IGMP shown in FIG. 10 is applied detects that the report is not sent from the host 102 for a certain period of time, it stops the packet transfer to the host 102. That is, the router 101 may not be able to send a packet to the host 102 depending on the situation of the host 102 (see FIG. 10) that is the destination of the packet. For example, when the router 101 and the host 102 are used in a broadcasting system and the packet is a video packet, the router 101 cannot transmit the video packet to the host 102 and the video may be interrupted.

Therefore, an object of the present invention is to provide a router system and a packet transmission determination method that can prevent interruption of packet transfer while using IGMP.

A router system according to the present invention receives and receives an IGMP processing unit that periodically sends a predetermined query in IGMP (Internet Group Management Protocol) to a host, and a report sent by the host in response to the predetermined query. The report is transmitted to the IGMP processing unit, and when the host becomes unable to transmit the report in response to the predetermined query, a copy of the report already received from the host is transmitted to the IGMP processing unit. A report processing unit, and as long as the IGMP processing unit continues to receive a report from the report processing unit a predetermined number of times or more within a predetermined period, transmits a packet transmitted from the outside to the host. It is characterized by continuing the determination to do.

In the packet transmission determination method according to the present invention, the IGMP processing unit periodically transmits a predetermined query in the IGMP (Internet Group Management Protocol) to the host, and the report processing unit transmits the predetermined query by the host in response to the predetermined query. The received report, sends the received report to the IGMP processing unit, and when the host becomes unable to send the report in response to the predetermined query, copies of the report already received from the host To the IGMP processing unit, and as long as the IGMP processing unit continues to receive the report from the report processing unit a predetermined number of times or more within a predetermined period, the host sends packets sent from the outside. It is characterized by continuing the determination to send to.

According to the present invention, in a router system using IGMP, it is possible to prevent interruption of packet transfer.

It is a block diagram which shows the example of the router system of the 1st Embodiment of this invention. FIG. 6 is a schematic diagram showing a state in which a host cannot send a Report in the first embodiment. It is a schematic diagram which shows the situation where the router system used for a broadcasting system transfers the packet of a video material to a host. It is a block diagram which shows the example in which an IGMP process part and a report process part are provided in another apparatus. It is a block diagram which shows the example of the router system of the 2nd Embodiment of this invention. In 2nd Embodiment, it is a schematic diagram which shows the state which the host became unable to transmit Report. It is a block diagram which shows the example of the router system of the 3rd Embodiment of this invention. FIG. 13 is a schematic diagram showing a state in which a host cannot send a Report in the third embodiment. It is a block diagram which shows the outline|summary of the router system of this invention. It is a schematic diagram which shows the example of operation|movement of the general router to which IGMP is applied.

Hereinafter, embodiments of the present invention will be described with reference to the drawings. In each embodiment, a case where a router system and a host are used in a broadcasting system and the router system transfers a video packet to the host will be described as an example. However, the router system of the present invention may be used in a system other than the broadcasting system.

Embodiment 1.
FIG. 1 is a block diagram showing an example of a router system according to the first embodiment of this invention. The router system 1 is connected to the host 9 via a communication network, for example. IGMP is applied to the router system 1 and the host 9. This point is the same in each of the embodiments described later.

The router system 1 includes an IGMP processing unit 2 and a report processing unit 3.

The IGMP processing unit 2 sends a video packet sent from the outside to the host 9. In the present embodiment, the report processing unit 3 relays the video packet output from the IGMP processing unit 2 to the host 9.

Further, the IGMP processing unit 2 periodically sends a predetermined query in IGMP to the host 9. This predetermined query is specifically a General Query in IGMP. As described above, the General Query in IGMP is also called a multicast membership query. In the following description, the above-mentioned predetermined query will be referred to as General Query.

The report processing unit 3 relays the General Query transmitted by the IGMP processing unit 2 to the host 9. That is, the report processing unit 3 once receives the General Query transmitted by the IGMP processing unit 2 and transmits the General Query to the host 9.

The host 9 receives the General Query. Upon receiving the General Query from the report processing unit 3, the host 9 returns a report (Report) to the router system 1 within a fixed time after the General Query is received.

In the router system 1, first, the report processing unit 3 once receives the Report transmitted from the host 9 and transmits the Report to the IGMP processing unit 2.

The IGMP processing unit 2 receives the Report from the report processing unit 3. The IGMP processing unit 2 periodically transmits a General Query, and the Report is returned from the host 9 according to the General Query. Therefore, if the host 9 is in the state of normally returning the Report, the state in which the IGMP processing unit 2 repeats the reception of the Report continues.

As long as the IGMP processing unit 2 continues to receive the Report from the report processing unit 3 a predetermined number of times or more within a predetermined period, it continues to determine that the video packet sent from the outside is transmitted to the host 9. To do. As described above, when the host 9 normally returns the Report, the IGMP processing unit 2 continues to repeatedly receive the Report. In this state, the IGMP processing unit 2 receives the Report from the report processing unit 3 a predetermined number of times or more within a predetermined period. Therefore, the IGMP processing unit 2 continues the determination that the video packet sent from the outside is transmitted to the host 9, and continues the transfer of the video packet to the host 9 according to the determination.

FIG. 2 is a schematic diagram showing a state in which the host 9 cannot send a Report even if it receives a General Query for some reason in the first embodiment. The same elements as those shown in FIG. 1 are designated by the same reference numerals as those in FIG. With reference to FIG. 2, the operation of the router system 1 when the host 9 receives the General Query and cannot send the Report will be described.

The IGMP processing unit 2 transmits a General Query to the host 9, and the report processing unit 3 relays the General Query between the IGMP processing unit 2 and the host 9, as in the case described above.

In the example shown in FIG. 2, the host 9 cannot send a Report even if it receives a General Query. Therefore, the report processing unit 3 does not receive the Report from the host 9. The report processing unit 3 relays the General Query from the IGMP processing unit 2 to the host 9, and if the Report is not received from the host 9 for a predetermined time, the host 9 sends the Report according to the General Query. It is judged that it has become impossible. Then, when the report processing unit 3 determines that the host 9 cannot send the report in response to the General Query, the report processing unit 3 copies the Report already received from the host 9 (that is, the copy of the Report received in the past), For example, it is periodically transmitted to the IGMP processing unit 2. At this time, the report processing unit 3 transmits the copy of the Report to the IGMP processing unit 2 such that the frequency with which the IGMP processing unit 2 receives the copy of the Report is equal to or more than a predetermined number of times within a predetermined period. Below, a copy of the Report is referred to as a Dummy Report.

Even if the host 9 becomes unable to send a Report, the IGMP processing unit 2 continues to receive the Dummy Report from the report processing unit 3 a predetermined number of times or more within a predetermined period. Therefore, the IGMP processing unit 2 continues the determination of transmitting the video packet sent from the outside to the host 9, and continues the transfer of the video packet to the host 9 according to the determination.

When the report processing unit 3 determines that the host 9 cannot send the report in response to the general query, the report processing unit 3 sends an alarm indicating that the host 9 cannot send the report to the IGMP processing unit 2. To do. In response to the alarm, the IGMP processing unit 2 may leave, for example, a report disconnection time or port information as a log. In addition, for example, the IGMP processing unit 2 outputs an SNMP (Simple Network Management Protocol) trap from a monitoring port (Management Port) in the router system 1 to a monitoring terminal (not shown) in response to the alarm. May be. The operation of the IGMP processing unit 2 that receives the alarm is not limited to the above example.

The IGMP processing unit 2 is realized by, for example, a CPU (Central Processing Unit) of a computer that operates according to a program. In this case, the CPU may read the program from a program recording medium such as a program storage device of a computer and operate as the IGMP processing unit 2 according to the program. Further, the report processing unit 3 is realized by, for example, a dedicated hardware module. This point is the same in each of the embodiments described later.

The IGMP processing unit 2 and the report processing unit 3 may be realized by the CPU of a computer that operates according to a program. In this case, the CPU may read the router program from a program recording medium such as a program storage device of a computer and operate as the IGMP processing unit 2 and the report processing unit 3 according to the program.

According to the present embodiment, the IGMP processing unit 2 sends the video packet transmitted from the outside to the host 9 as long as the Report receiving unit 3 continues to receive the Report from the report processing unit 3 a predetermined number of times or more. The determination to send to is continued. Then, when the report processing unit 3 determines that the host 9 is in a state in which the Report cannot be transmitted in response to the General Query, the report processing unit 3 periodically transmits the Dummy Report to the IGMP processing unit 2. Therefore, even if the host 9 becomes unable to send the Report for some reason, the IGMP processing unit 2 continuously receives the Dummy Report from the report processing unit 3, so that the video packet sent from the outside is sent to the host 9. Continue to decide to send. As a result, the router system 1 can continue the operation of transferring the video packet sent from the outside to the host 9. Therefore, in the router system 1 to which the IGMP is applied, it is possible to prevent interruption of packet transfer to the host 9.

Further, since it is possible to prevent the packet transfer from being interrupted as described above, when the router system 1 is used in a broadcasting system, it is possible to prevent the video from being interrupted in broadcasting. FIG. 3 is a schematic diagram showing a situation in which the router system 1 used in the broadcasting system transfers a packet of video material (video packet) to the host 9. The router system 1 sends a packet of video material sent from outside the router system 1 to the host 9, and the host 9 sends the packet of the video material to the subsequent system 8 of the host 9. Then, the router system 1 periodically sends a general query to the host 9, and the host 9 returns a Report in response to the general query. In this state, the IGMP processing unit 2 (see FIG. 1 etc.) in the router system 1 continuously receives the Report via the report processing unit 3 (see FIG. 1 etc.). As a result, the IGMP processing unit 2 continues to determine that the video packet sent from the outside is transmitted to the host 9, and the router system 1 continues the packet transfer of the video material to the host 9. Even if the host 9 becomes unable to send a Report for some reason, the IGMP processing unit 2 continuously receives the Dummy Report from the report processing unit 3. Therefore, even if the host 9 becomes unable to send the Report, the IGMP processing unit 2 continues to determine that the video packet sent from the outside is sent to the host 9, and the router system 1 sends the video to the host 9. Continue packet transfer of material. Therefore, even if the host 9 becomes unable to send the Report, the router system 1 can transfer the packet of the video material to the host 9, and the host 9 can send the packet to the post-stage system 8. As a result, it is possible to prevent the video from being interrupted.

Next, a modified example of the first embodiment will be described. In the above-described first embodiment, the case where the IGMP processing unit 2 and the report processing unit 3 are provided in one device is shown (see FIGS. 1 and 2). The IGMP processing unit 2 and the report processing unit 3 may be provided in different devices. FIG. 4 is a block diagram showing an example in which the IGMP processing unit 2 and the report processing unit 3 are provided in different devices. Elements similar to those in FIGS. 1 and 2 are designated by the same reference numerals as those in FIGS. 1 and 2, and description thereof is omitted.

In the configuration shown in FIG. 4, the router system 1 includes a first device 21 including the IGMP processing unit 2 and a second device 31 including the report processing unit 3. Except that the IGMP processing unit 2 and the report processing unit 3 are provided in different devices, the operation is the same as in the first embodiment described above, and the operation of the IGMP processing unit 2 and the operation of the report processing unit 3 are the same as those described above. The operation is the same as the operation of the IGMP processing unit 2 and the operation of the report processing unit 3 in the first embodiment.

Therefore, also in the modification shown in FIG. 4, the same effect as that of the first embodiment can be obtained.

Embodiment 2.
In the first embodiment and its modification, the case where the IGMP processing unit 2 has a function of sending a video packet sent from the outside to the host 9 is shown. The second embodiment shows a configuration in which a switch chip having a function of sending a video packet sent from the outside to the host 9 is provided separately from the IGMP processing unit 2.

FIG. 5 is a block diagram showing an example of a router system according to the second embodiment of this invention. The router system 1 according to the second embodiment includes an IGMP processing unit 2, a switch chip 4, and a report processing unit 3.

In the present embodiment, the switch chip 4 provided separately from the IGMP processing unit 2 transmits a video packet sent from the outside to the host 9. Here, the switch chip 4 multiplexes the video packet and the General Query transmitted by the IGMP processing unit 2 to the host 9, and transmits the multiplexed video packet and General Query to the host 9. In the present embodiment, the report processing unit 3 relays the multiplexed video packet and General Query output from the switch chip 4 to the host 9.

The IGMP processing unit 2 periodically sends a General Query in IGMP to the host 9. However, the General Query transmitted by the IGMP processing unit 2 is received by the switch chip 4. Then, as described above, the switch chip 4 multiplexes the video packet and the general query, and transmits the multiplexed video packet and the general query to the host 9.

The report processing unit 3 temporarily receives the multiplexed video packet and General Query transmitted by the switch chip 4 to the host 9, and transmits the multiplexed video packet and General Query to the host 9.

Upon receiving the multiplexed video packet and General Query, the host 9 separates the video packet and General Query. Then, the host 9 returns a report (Report) to the router system 1 within a fixed time after receiving the General Query.

In the router system 1, the report processing unit 3 first receives the Report transmitted from the host 9 and then transmits the Report to the switch chip 4. The switch chip 4 transfers the Report to the IGMP processing unit 2.

The IGMP processing unit 2 receives the Report from the switch chip 4. The IGMP processing unit 2 periodically transmits a General Query, and the Report is returned from the host 9 according to the General Query. Therefore, if the host 9 is in the state of normally returning the Report, the state in which the IGMP processing unit 2 repeats the reception of the Report continues.

As long as the IGMP processing unit 2 continues to receive the Report from the report processing unit 3 via the switch chip 4 for a predetermined number of times or more within a predetermined time period, the video packet transmitted from the outside to the host 9 is transmitted. Continue to decide to send. As described above, when the host 9 normally returns the Report, the IGMP processing unit 2 continues to repeatedly receive the Report. In this state, the IGMP processing unit 2 receives the Report from the report processing unit 3 via the switch chip 4 a predetermined number of times or more within a predetermined period. Therefore, the IGMP processing unit 2 continues the determination of transmitting the video packet sent from the outside to the host 9. According to the determination, the switch chip 4 continues to transfer the video packet sent from the outside to the host 9.

FIG. 6 is a schematic diagram showing a state where the host 9 cannot send a Report even if the General Query is received for some reason in the second embodiment. The same elements as those shown in FIG. 5 are designated by the same reference numerals as those in FIG. With reference to FIG. 6, the operation of the router system 1 in the state where the host 9 cannot send the report even if the host 9 receives the general query will be described.

The IGMP processing unit 2 sends a General Query, the switch chip 4 multiplexes the video packet sent from the outside and the General Query, and the report processing unit 3 sends the multiplexed video packet and the General Query to the host 9 The point of relaying to is similar to the case described above.

When the host 9 receives the multiplexed video packet and General Query, the host 9 separates the video packet and General Query. This point is also the same as the above case.

In the example shown in FIG. 6, the host 9 cannot send the Report even if the General Query is received. Therefore, the report processing unit 3 does not receive the Report from the host 9. The report processing unit 3 relays the multiplexed video packet and the General Query from the switch chip 4 to the host 9, and if the Report is not received from the host 9 for a predetermined time, the host 9 sends the General Query. It is determined that the Report cannot be sent according to the. Then, when the report processing unit 3 determines that the host 9 cannot send the report in response to the general query, the report processing unit 3 periodically sends a Dummy Report (a copy of the previously received Report) to the switch chip 4, for example. Send. The switch chip 4 transfers the Dummy Report received from the report processing unit 3 to the IGMP processing unit 2. At this time, the report processing unit 3 transmits the Dummy Report to the switch chip 4 such that the frequency with which the IGMP processing unit 2 receives the Dummy Report is equal to or greater than a predetermined number of times within a predetermined period.

Therefore, even if the host 9 cannot send the Report, the IGMP processing unit 2 continues to receive the Dummy Report from the report processing unit 3 via the switch chip 4 for a predetermined number of times or more. .. Therefore, the IGMP processing unit 2 continues the determination of transmitting the video packet sent from the outside to the host 9. Then, according to the determination, the switch chip 4 continues the operation of transferring the video packet sent from the outside to the host 9.

When the report processing unit 3 determines that the host 9 cannot send the report in response to the general query, it sends an alarm to the switch chip 4 indicating that the host 9 cannot send the report. The switch chip 4 sends the alarm to the IGMP processing unit 2. The operation of the IGMP processing unit 2 that has received the alarm is the same as the operation described in the first embodiment, so description thereof will be omitted.

The switch chip 4 is realized by, for example, a dedicated chip. This point is the same in the third embodiment described later.

According to the present embodiment, the IGMP processing unit 2 sends the report from the outside via the switch chip 4 as long as the Report is received a predetermined number of times or more within a predetermined period. The determination to transmit the received video packet to the host 9 is continued. When the report processing unit 3 determines that the host 9 cannot send a Report in response to the General Query, it periodically sends a Dummy Report to the switch chip 4, and the switch chip 4 sends the Dummy Report to the IGMP report. Transfer to the processing unit 2. Therefore, even if the host 9 becomes unable to send a Report for some reason, the IGMP processing unit 2 continuously receives the Dummy Report from the report processing unit 3 via the switch chip 4, and therefore the IGMP processing unit 2 sends the Dummy Report from outside. The determination of transmitting the video packet to the host 9 is continued. Further, the switch chip 4 continues the operation of transferring the video packet sent from the outside to the host 9 according to the determination. Therefore, also in the second embodiment, it is possible to prevent interruption of packet transfer to the host 9 in the router system 1 to which IGMP is applied.

Embodiment 3.
Similarly to the second embodiment, the third embodiment also shows a configuration in which a switch chip having a function of sending a video packet sent from the outside to the host 9 is provided separately from the IGMP processing unit 2.

FIG. 7 is a block diagram showing an example of a router system according to the third embodiment of this invention. The router system 1 according to the third embodiment includes an IGMP processing unit 2, a switch chip 4, and a report processing unit 3.

The switch chip 4 provided separately from the IGMP processing unit 2 transmits a video packet sent from the outside to the host 9. Here, the switch chip 4 multiplexes the video packet and the General Query transmitted by the IGMP processing unit 2 to the host 9, and transmits the multiplexed video packet and General Query to the host 9.

The IGMP processing unit 2 periodically sends a general query in IGMP to the host 9. However, the General Query transmitted by the IGMP processing unit 2 is received by the report processing unit 3 and transferred to the switch chip 4 by the report processing unit 3. That is, the report processing unit 3 once receives the General Query transmitted by the IGMP processing unit 2 and transfers the General Query to the switch chip 4. Then, as described above, the switch chip 4 multiplexes the video packet and the general query, and transmits the multiplexed video packet and the general query to the host 9.

Upon receiving the multiplexed video packet and General Query, the host 9 separates the video packet and General Query. Then, the host 9 returns a report (Report) to the router system 1 within a fixed time after receiving the General Query.

In the router system 1, the switch chip 4 first receives the Report transmitted from the host 9 and then transmits the Report to the report processing unit 3. The report processing unit 3 transfers the Report to the IGMP processing unit 2.

The IGMP processing unit 2 receives the Report from the report processing unit 3. The IGMP processing unit 2 periodically transmits a General Query, and the Report is returned from the host 9 according to the General Query. Therefore, if the host 9 is in the state of normally returning the Report, the state in which the IGMP processing unit 2 repeats the reception of the Report continues.

As long as the IGMP processing unit 2 continues to receive the Report from the report processing unit 3 a predetermined number of times or more within a predetermined period, it continues to determine that the video packet sent from the outside is transmitted to the host 9. To do. As described above, when the host 9 normally returns the Report, the IGMP processing unit 2 continues to repeatedly receive the Report. In this state, the IGMP processing unit 2 receives the Report from the report processing unit 3 a predetermined number of times or more within a predetermined period. Therefore, the IGMP processing unit 2 continues the determination of transmitting the video packet sent from the outside to the host 9. According to the determination, the switch chip 4 continues to transfer the video packet sent from the outside to the host 9.

FIG. 8 is a schematic diagram showing a state in which the host 9 cannot send a Report even if it receives a General Query for some reason in the third embodiment. The same elements as those shown in FIG. 7 are designated by the same reference numerals as those in FIG. With reference to FIG. 8, the operation of the router system 1 in the state where the host 9 cannot send the report even if the host 9 receives the general query will be described.

The IGMP processing unit 2 transmits the General Query, the report processing unit 3 transfers the General Query to the switch chip 4, and the switch chip 4 multiplexes the video packet sent from the outside and the General Query, and multiplexes them. The point that the generated video packet and General Query are transmitted to the host 9 is the same as in the above case.

When the host 9 receives the multiplexed video packet and General Query, the host 9 separates the video packet and General Query. This point is also the same as the above case.

In the example shown in FIG. 8, the host 9 cannot send a Report even if it receives a General Query. Therefore, the switch chip 4 does not receive the Report from the host 9, and as a result, the report processing unit 3 also does not receive the Report. The report processing unit 3 transfers the General Query transmitted by the IGMP processing unit 2 to the switch chip 4, and if the Report is not received from the host 9 via the switch chip 4 for a predetermined time, the host 9 Determines that the Report cannot be sent according to the General Query. Then, when the report processing unit 3 determines that the host 9 cannot send the report in response to the General Query, the report processing unit 3 periodically outputs the Dummy Report (a copy of the previously received Report), for example, to the IGMP processing unit 2 Send to. At this time, the report processing unit 3 transmits the Dummy Report to the IGMP processing unit 2 so that the frequency with which the IGMP processing unit 2 receives the Dummy Report is equal to or greater than a predetermined number of times within a predetermined period.

Therefore, even if the host 9 becomes unable to send a Report, the IGMP processing unit 2 continues to receive the Dummy Report from the report processing unit 3 a predetermined number of times or more within a predetermined period. Therefore, the IGMP processing unit 2 continues the determination of transmitting the video packet sent from the outside to the host 9. Then, according to the determination, the switch chip 4 continues the operation of transferring the video packet sent from the outside to the host 9.

Further, when the report processing unit 3 determines that the host 9 cannot send the report in response to the General Query, it sends an alarm indicating that the host 9 cannot send the report to the IGMP processing unit 2. To do. The operation of the IGMP processing unit 2 that has received the alarm is the same as the operation described in the first embodiment, so description thereof will be omitted.

According to the present embodiment, the IGMP processing unit 2 sends the video packet transmitted from the outside to the host 9 as long as the Report receiving unit 3 continues to receive the Report from the report processing unit 3 a predetermined number of times or more. The determination to send to is continued. Then, when the report processing unit 3 determines that the host 9 cannot send the report in response to the General Query, the report processing unit 3 periodically sends the Dummy Report to the IGMP processing unit 2. Therefore, even if the host 9 becomes unable to send the Report for some reason, the IGMP processing unit 2 continuously receives the Dummy Report from the report processing unit 3, so that the video packet sent from the outside is sent to the host 9. Continue to decide to send. Further, the switch chip 4 continues the operation of transferring the video packet sent from the outside to the host 9 according to the determination. Therefore, also in the third embodiment, it is possible to prevent interruption of packet transfer to the host 9 in the router system 1 to which IGMP is applied.

Next, the outline of the present invention will be described. FIG. 9 is a block diagram showing an outline of the router system of the present invention. The router system of the present invention includes an IGMP processing unit 2 and a report processing unit 3.

The IGMP processing unit 2 periodically sends a predetermined query (for example, General Query) in IGMP to the host.

When the report processing unit 3 receives the report transmitted by the host in response to the predetermined query, transmits the received report to the IGMP processing unit 2, and the host becomes unable to transmit the report in response to the predetermined query. First, a copy of the report received from the host is transmitted to the IGMP processing unit 2.

As long as the IGMP processing unit 2 continues to receive the report from the report processing unit 3 a predetermined number of times or more within a predetermined time period, the IGMP processing unit 2 continues to determine that the packet transmitted from the outside is transmitted to the host.

With such a configuration, it is possible to prevent interruption of packet transfer in the router system using the IGMP.

Further, while the IGMP processing unit continues to determine that the packet transmitted from the outside is transmitted to the host, the configuration includes a switch unit (for example, the switch chip 4) that transmits the packet transmitted from the outside to the host. Good.

Further, the switch unit may be configured to multiplex a packet transmitted from the outside and a predetermined query and transmit the multiplexed packet to the host.

Further, the IGMP processing unit 2 may be configured to transmit the packet transmitted from the outside to the host while continuing the determination to transmit the packet transmitted from the outside to the host.

Further, the router system may be a router system for transmitting a video packet to the host.

The present invention is preferably applied to a router system that complies with IGMP.

1 router system 2 IGMP processing unit 3 report processing unit 4 switch chip 9 host

Claims (9)

An IGMP processing unit that periodically sends a predetermined query in the Internet Group Management Protocol (IGMP) to a host,
When a report transmitted by the host in response to the predetermined query is received, the received report is transmitted to the IGMP processing unit, and the host becomes unable to transmit the report in response to the predetermined query. And a report processing unit for transmitting a copy of the report received from the host to the IGMP processing unit,
The IGMP processing unit,
A router system characterized by continuing the determination that a packet sent from the outside is transmitted to the host as long as the report is continuously received from the report processing unit a predetermined number of times or more within a predetermined period. .. The router system according to claim 1, further comprising a switch unit that transmits a packet transmitted from the outside to the host while the IGMP processing unit continues to determine that the packet transmitted from the outside is transmitted to the host. The switch part
The router system according to claim 2, wherein a packet transmitted from the outside and a predetermined query are multiplexed and transmitted to a host. The IGMP processing unit
The router system according to claim 1, wherein the packet transmitted from the outside is transmitted to the host while continuing the determination to transmit the packet transmitted from the outside to the host. The router system according to any one of claims 1 to 4, wherein the router system is a router system for transmitting a video packet to a host. The IGMP processing unit periodically sends a predetermined query in the IGMP (Internet Group Management Protocol) to the host,
The report processing unit receives the report transmitted by the host in response to the predetermined query, transmits the received report to the IGMP processing unit, and the host cannot transmit the report in response to the predetermined query. When a state is reached, a copy of the report already received from the host is transmitted to the IGMP processing unit,
As long as the IGMP processing unit continues to receive the report from the report processing unit a predetermined number of times or more within a predetermined period, it continues to determine that the packet transmitted from the outside is transmitted to the host. A method for determining packet transmission, characterized by: The packet transmission determination method according to claim 6, wherein the switch unit transmits the packet transmitted from the outside to the host while the determination that the IGMP processing unit transmits the packet transmitted from the outside to the host is continued. The packet transmission determination method according to claim 7, wherein the switch unit multiplexes a packet transmitted from the outside and a predetermined query and transmits the multiplexed packet to the host. The packet transmission determination method according to claim 6, wherein the IGMP processing unit transmits the packet transmitted from the outside to the host while continuing the determination that the packet transmitted from the outside is transmitted to the host.

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