JP4937004B2 - Communication system and station side communication device - Google Patents

Description

  The present invention provides a communication system in which a single station-side communication device connected to a network to which a plurality of multicast distribution servers are connected and one to a plurality of subscriber termination devices that accommodate terminal devices are connected by an optical transmission medium. In particular, the present invention relates to transfer of a frame to be multicast transferred.

  Conventionally, a single station-side communication device broadcasts to a plurality of subscriber termination devices, and each subscriber termination device transmits a frame according to the contents of a destination MAC (Media Access Control) address stored in the received frame. A method for determining whether to transfer or discard a frame is known.

  As a conventional technique related to such a transmission method, for example, there is Non-Patent Document 1. A transmission method standardized in Non-Patent Document 1 will be described by taking a PON system connected in a PON (Passive Optical Network) topology as an example. In describing the transmission method, the transfer method from a single station-side communication device to a single specific subscriber termination device is unicast transfer, and broadcast transfer is a single station-side communication device to all subscribers. A transfer method for a terminal device and a multicast transfer indicate a transfer method from a single station side communication device to a plurality of specific subscriber terminal devices that are not all subscriber terminal devices.

  The conventional communication system described in Non-Patent Document 1 includes a single station-side communication device, one to a plurality of subscriber termination devices that accommodate terminal devices, and a plurality of multicast distribution servers. The apparatus is connected to each multicast distribution server that distributes multicast traffic through a network, and is connected to a subscriber terminal apparatus via an optical fiber branched into a plurality of fibers by an optical branching unit.

  The station side communication device receives the multicast frame distributed from each multicast distribution server via the network, and broadcasts the received frame to each subscriber termination device. Each subscriber terminal unit has a frame filter. When a multicast frame broadcast from the station side communication device is received, whether the frame filter can transfer the information in the received frame to the terminal device accommodated by itself If it is transferable, it is transferred to the terminal device. If transfer is not possible, the received frame is discarded.

  Next, the multicast transfer operation of the conventional communication system described in Non-Patent Document 1 will be described. The terminal device has multicast group information in which a multicast IP address corresponding to the multicast group is registered. For example, when the terminal device is an IP-STB (Internet Protocol-Set Top Box), the multicast group information has a one-to-one multicast IP address associated with each viewing program, and the destination multicast IP address to be received. Is registered. Based on this multicast group information, the terminal device notifies the station side communication device of a multicast transfer request including the multicast IP address of the multicast group to be requested.

  When the station side communication device receives the multicast transfer request frame, the station side communication device generates a transparent filter for transmitting the frame having the destination multicast MAC address associated with the destination multicast IP address that is the target of the multicast transfer included in the multicast transfer frame. To do. The station-side communication device notifies the generated transmission filter to the subscriber termination device that accommodates the terminal device that has transmitted the multicast transfer request frame, and the subscriber termination device sets the transmission filter in the frame filter.

  On the other hand, when the frame is received from the network, the station side communication device assigns a broadcast LLID indicating broadcast transfer to the frame when the received frame is a multicast transfer target frame, and performs broadcast transfer to each subscriber terminal device. If the received frame is not a multicast transfer target frame, a unicast LLID indicating unicast transfer is assigned to the frame, and the unicast transfer is performed to the subscriber terminal device that is the transmission target of the frame. .

  The subscriber terminal device recognizes from the LLID given to the frame that it is a frame addressed to itself or broadcasted, and if this frame is a multicast frame, the destination multicast MAC address in the frame is sent to the device itself. It is determined whether or not it matches the set transmission filter. When the destination multicast MAC address in the frame matches the transmission filter set in the own device, the subscriber terminal device transfers the frame to the terminal device accommodated in the own device.

  Here, the case where the station side communication device generates a transparent filter based on the multicast transfer request frame and notifies the subscriber terminal device of the transmission is described as an example. There is also a configuration in which the subscriber terminating device generates a transmission filter based on the multicast transfer request frame without transferring to the network.

  Thus, in the conventional communication system described in Non-Patent Document 1, multicast transfer is realized for a frame having a destination multicast MAC address associated with the destination multicast IP address in response to a multicast transfer request from the terminal device. I am doing so. That is, in the conventional communication system described in Non-Patent Document 1, there is a difference in whether the process of extracting the multicast transfer request frame is executed by the station side communication device or the subscriber termination device, but the destination MAC This is a method for realizing whether or not transfer to a terminal device is possible based on an address.

  For example, Patent Document 1 discloses a conventional technique for realizing whether or not transfer to a terminal device is possible based on a destination MAC address. Patent Document 1 discloses a technique for determining whether a received packet is a frame indicating a transfer request and determining whether to transfer a multicast frame to a terminal device based on a destination multicast MAC address corresponding to the determination result. ing.

JP 2006-238433 A IEEE (Institute of Electrical and Electronic Engineers) 802.3ah

  The prior art described in Non-Patent Document 1 and Patent Document 1 realizes multicast transfer for a frame having a destination multicast MAC address associated with a destination multicast IP address in response to a transfer request from a terminal device. .

  However, in the prior art described in Non-Patent Document 1 and Patent Document 1, for example, “destination multicast IP” indicating a multicast forwarding group realized by the protocol of IGMPv3 published in RFC3376 or MLDv2 published in RFC3810. There is a problem that both the “address” and the “source IP address” indicating the source of the multicast transfer frame are specified, and only frames that satisfy both conditions cannot be multicast transferred.

  This is because, in the prior arts of Non-Patent Document 1 and Patent Document 1 described above, multicast forwarding is realized by using a configuration in which the destination multicast MAC address is associated with the destination multicast IP address. Information related to the source IP address cannot be identified from the address, even if a multicast transfer request specifying both the destination multicast IP address and the source IP address is made from the terminal device. Only multicast forwarding based on the destination multicast IP address can be realized. That is, in the prior art described in Non-Patent Document 1 and Patent Document 1, different multicast forwarding processes cannot be realized for frames having the same destination multicast IP address but different source IP addresses. This is because the multicast distribution server regards different multicast frames as the same.

  The present invention has been made in view of the above, and is a communication for controlling, as a multicast transfer target, a frame that satisfies the conditions of both addresses in response to a multicast transfer request specifying both a destination multicast IP address and a source IP address The purpose is to obtain a system.

  In order to solve the above-described problems and achieve the object, the present invention provides a single station-side communication device connected to a network to which a plurality of multicast distribution servers are connected, and one to a plurality of subscriptions that accommodate terminal devices. In the communication system in which the terminal device is connected by an optical transmission medium, the station side communication device is a source that is a global IP address and a source IP address that are destination multicast IP addresses of a multicast frame distributed by the multicast distribution server A translation table in which IP translation information in which a local IP address used among the station side communication device, the subscriber terminal device, and the terminal device is associated with a set of IP addresses is registered, and a multicast distributed by the multicast distribution server Global IP address and source IP address of the frame And an IP address rewriting unit that rewrites the global IP address of the multicast frame to a local IP address based on the IP translation information and transfers the local IP address to the subscriber termination device. And a transmission filter identifying unit that determines whether or not to forward the multicast frame received from the station side communication device to the terminal device accommodated by the device by the set transmission filter.

  According to this invention, the station-side communication apparatus and the subscriber are assigned to the set of the global IP address that is the destination multicast IP address and the source IP address that is the source IP address of the multicast frame distributed by the multicast distribution server. Based on the IP translation information that associates the local IP address used between the terminal device and the terminal device, and the global IP address and source IP address of the multicast frame distributed by the multicast distribution server, the global IP address of the multicast frame is locally Whether the IP address is rewritten and transferred to the subscriber terminal device, and whether or not the subscriber terminal device forwards the multicast frame received from the station side communication device to the terminal device accommodated by itself by the preset transmission filter Since the determination is made, it is possible to obtain a communication system that controls a frame satisfying the conditions of both addresses as a multicast transfer target in response to a multicast transfer request specifying both the destination multicast IP address and the source IP address. There is an effect.

  Embodiments of a communication system and a station side communication apparatus according to the present invention will be described below in detail with reference to the drawings. Note that the present invention is not limited to the embodiments.

Embodiment 1 FIG.
A first embodiment of the present invention will be described with reference to FIGS. 1 is a diagram showing a configuration of a communication system according to Embodiment 1 of the present invention. In FIG. 1, the communication system includes a single station side communication device 1, subscriber terminal devices 6-1 to 6-3 accommodating terminal devices 3-1 to 3-3, multicast distribution servers 5-1, 5-2, and the station side communication apparatus 1 is connected to the multicast distribution servers 5-1 and 5-2 for distributing the multicast traffic (multicast frame) through the network 8, and the fiber 7- It is connected to the subscriber termination devices 6-1 to 6-3 via the optical fiber 2 branched to 1 to 7-3.

  Note that the number of subscriber termination devices 6-1 to 6-3 is not limited to this. Further, it is not always necessary that all the subscriber termination devices 6-1 to 6-3 accommodate the terminal devices 3-1 to 3-3, and at least one of the subscriber termination devices 6-1 to 6-3 is included. Need only accommodate the terminal devices 3-1 to 3-3. Further, the number of terminal devices accommodated by the subscriber termination devices 6-1 to 6-3 is not limited to this, and one subscriber termination device may accommodate a plurality of terminal devices.

  Also, information for timing setting is stored in the communication of the terminal devices 3-1 to 3-3, the subscriber terminal device 6-1, the station side communication device 1, and the multicast distribution servers 5-1 and 5-2. A MAC for storing MAC layer information, including a preamble field, a destination MAC address field for storing a destination MAC address indicating the destination of the frame, and a source MAC address field for storing a source MAC address indicating the source of the frame Stores TCP / IP layer information including a header field, a source IP address field for storing a source IP address indicating the source of the frame, and a destination IP address field for storing a destination IP address indicating the destination of the frame TCP / IP header field, user data Data field, and a general Layer 2 frame including a LCC field for storing LCC used.

  FIG. 2 is a block diagram showing a configuration of the station side communication apparatus 1 shown in FIG. In FIG. 2, a station side communication apparatus 1 includes a network interface unit (hereinafter referred to as a network I / F unit) 22, a subscriber side interface unit (hereinafter referred to as a subscriber side I / F unit) 23, a conversion table 11, and a local table. IP address registration unit 12, local address setting unit 13, MAC address generation unit 14, transfer request extraction unit 15, transmission filter generation unit 16, transmission filter request unit 17, destination determination unit 18, IP address rewriting unit 19, MAC address rewriting Unit 20 and an LLID (Logical Link ID) giving unit 21.

  The network I / F unit 22 has an interface function with the network 8, and transmits and receives frames between the own apparatus and the multicast distribution servers 5-1 and 5-2. The subscriber-side I / F unit 23 has an interface function with the optical fiber 2 and performs frame transmission / reception between itself and the subscriber termination devices 6-1 to 6-1.

  The conversion table 11 stores a destination multicast IP address (hereinafter, referred to as a destination multicast IP address) stored in a destination IP address field of a TCP / IP header in a multicast transfer frame transmitted from the multicast distribution servers 5-1 and 5-2 to the own device. A destination multicast IP address (hereinafter referred to as a local IP address) used between the station side communication device 1, the subscriber termination devices 6-1 to 6-3, and the terminal devices 3-1 to 3-3. IP conversion information for conversion to (contains) is stored.

  Here, the local IP address is a one-to-one correspondence with a pair of a global IP address and a source IP address (hereinafter referred to as a source IP address) stored in a source IP address field of a TCP / IP header. It is a related IP address, and the IP translation information is information in which a set of a global IP address and a source IP address is associated with a global IP address.

  The local IP address registration unit 12 registers the IP conversion information input using an input unit (not shown) in the conversion table 11. The local address setting unit 13 generates an IP conversion information notification frame that notifies the terminal devices 3-1 to 3-3 of the IP conversion information. The MAC address generation unit 14 generates a related destination multicast MAC address from the local IP address of the IP conversion information. The MAC address generation unit 14 sets a set of a local IP address and a destination multicast MAC address generated in association with the local IP address in the MAC address rewriting unit 20 as destination multicast MAC address information.

  The transfer request extraction unit 15 determines whether or not the frame received via the subscriber side I / F unit 23 is a multicast transfer request frame. The transfer request extraction unit 15 outputs the multicast transfer request frame to the transparent filter generation unit 16 when the received frame is a multicast transfer request frame, and receives the received frame when the received frame is not a multicast transfer request frame. To the network 8.

  The multicast transfer request frame is a frame transmitted from the terminal devices 3-1 to 3-3 to the station side communication device 1 via the subscriber termination devices 6-1 to 6-3, and is disclosed, for example, in RFC2236. Requesting the destination multicast IP address of the frame to be multicast forwarded by IGMP (Internet Group Management Protocol) or MLD (Multicast Listener Protocol) published by RFC2710, etc., and sending the frame having the destination multicast IP address. This is a control frame requesting transfer.

  The transmission filter generation unit 16 generates a transmission filter based on the multicast transfer request frame. The transmission filter request unit 17 generates a transmission filter setting request frame for setting the transmission filter in the subscriber termination devices 6-1 to 6-3. The transmission filter request unit 17 transmits the generated transmission filter setting request frame to the subscriber termination devices 6-1 to 6-3 via the subscriber side I / F unit 23.

  The destination determination unit 18 determines whether or not the frame received via the network I / F unit 22 is a multicast frame. The destination determination unit 18 outputs the received frame to the IP address rewriting unit 19 when determining that the received frame is a multicast frame, and receives the received frame when determining that the received frame is not a multicast frame. Is output to the LLID assigning unit 21.

  The IP address rewriting unit 19 rewrites the global IP address of the multicast frame to the local IP address based on the multicast frame and the IP conversion information. The MAC address rewriting unit 20 rewrites the destination multicast MAC address based on the multicast frame and the destination multicast address information. The LLID assigning unit 21 assigns an LLID corresponding to the frame to the preamble field of the frame and transmits it via the subscriber side I / F unit 23.

  The subscriber termination devices 6-1 to 6-3 have the same function. The terminal devices 3-1 to 3-3 have the same function. With reference to the block diagram showing the configurations of the subscriber termination device 6-1 and the terminal device 3-1 shown in FIG. 3, functions of the subscriber termination device and the terminal device will be described.

  In FIG. 3, a subscriber termination device 6-1 includes a station side interface unit (hereinafter referred to as a station side I / F unit) 61, a terminal side interface unit (hereinafter referred to as a terminal side I / F unit) 62, a transmission filter. A setting unit 63 and a frame filter 64 having an LLID processing unit 641 and a transmission filter identifying unit 642 are provided.

  The station-side I / F unit 61 has an interface function of the fiber 7-1 and transmits / receives a frame between the own apparatus and the station-side communication apparatus 1. The terminal-side I / F unit 62 has an interface function with the terminal device 3-1, and transmits / receives a frame between itself and the terminal device 3-1.

  The transmission filter setting unit 63 sets the transmission frame in the transmission filter identification unit 642 based on the transmission filter setting request frame from the station side communication device 1. Based on the LLID added to the preamble field of the frame received via the station-side I / F unit 61, the LLID processing unit 641 determines whether the frame is a frame addressed to the own apparatus or a broadcast.

  The transmission filter identifying unit 642 transfers the frame determined by the LLID processing unit 641 to be a frame addressed to the own device to the terminal device 3-1. Also, when the frame determined to be a broadcast frame by the LLID processing unit 641 is a multicast frame, and the destination multicast MAC address stored in the destination MAC address field of the MAC header of the frame matches the transparent filter The frame is transferred to the terminal device 3-1.

  In FIG. 3, the terminal device 3-1 includes a multicast group storage unit 32, a local address setting unit 31, a multicast transfer request unit 33, and a frame reception unit 34.

  The multicast group storage unit 32 stores predetermined multicast group information. The multicast group information is information including a multicast group and a global IP address associated with the multicast group. For example, when the terminal device 3-1 is an IP-STB (Internet Protocol-Set Top Box), for example. Is information in which a multicast IP address is associated with each viewing program on a one-to-one basis, and a destination multicast IP address to be received is registered.

  The local address setting unit 31 is a multicast stored in the multicast group storage unit 32 based on the IP conversion information included in the IP conversion information notification frame transmitted from the station side communication device 1 via the subscriber terminal device 6-1. Rewrite the global IP address of the group information to the local IP address.

  The multicast transfer request unit 33 generates a multicast transfer request frame for the requested multicast group based on the multicast group information stored in the multicast group storage unit 32. The frame receiving unit 34 performs a predetermined frame receiving process on the frame received via the subscriber side I / F unit 35 and outputs the frame to a higher layer processing unit (not shown).

  With reference to the sequence diagrams of FIGS. 4 to 6, the operation of the communication system of the first embodiment will be described by taking the station side communication device 1, the subscriber termination device 6-1, and the terminal device 3-1 as examples. To do.

  First, the operation of the local IP address setting process for setting the local IP address in the terminal device 3-1 will be described with reference to the sequence diagram of FIG. The administrator uses the input means (not shown) of the station side communication device 1 to input the local IP address associated with the combination of the global IP address and the source IP address to the station side communication device 1 as IP conversion information. .

  When the IP conversion information is input, the local IP address registration unit 12 of the station side communication device 1 stores the input IP conversion information in the conversion table 11 (S100). The local IP address registration unit 12 notifies the MAC address generation unit 14, the local address setting unit 13, and the IP address rewriting unit 19 of the IP conversion information newly stored (registered) in the conversion table 11.

  The local address setting unit 13 generates an IP conversion information notification frame that notifies the terminal device 3-1 of the IP conversion information notified by the local IP address registration unit 12 (step S101). The local address setting unit 13 transmits the generated IP conversion information notification frame to the optical fiber 2 via the subscriber side I / F unit 23 (step S102). The IP conversion information notification frame transmitted to the optical fiber 2 reaches the subscriber termination devices 6-1 to 6-3.

  The station side I / F unit 61 of the subscriber terminal device 6-1 receives the IP conversion information notification frame. The station side I / F unit 61 recognizes that the received frame is an IP conversion information notification frame, and transmits the IP conversion information notification frame to the terminal device 3-1 via the terminal side I / F unit 62.

  The subscriber side I / F unit 35 of the terminal device 3-1 receives the IP conversion information notification frame and outputs it to the local address setting unit 31. The local address setting unit 31 rewrites the global IP address of the multicast group information stored in the multicast group storage unit 32 to the corresponding local IP address based on the IP conversion information included in the IP conversion information notification frame (step S103). .

  Specifically, the local address setting unit 31 searches the global IP address of the multicast group information stored in the multicast group storage unit 32 using the global IP address included in the IP translation information as a search key, and matches the search key. The global IP address to be extracted is extracted. The local address setting unit 31 rewrites the extracted global IP address with a local IP address associated with the global IP address included in the IP translation information. That is, the global IP address of the multicast group information set in advance is rewritten to the local IP address, and the multicast group information is changed to the local IP address associated with the multicast group.

  On the other hand, the MAC address generation unit 14 of the station side communication device 1 generates a destination multicast MAC address associated with the local IP address of the IP conversion information notified from the local IP address registration unit 12, and generates the generated destination multicast MAC address. The MAC address rewriting unit 20 is set (step S104). Specifically, the MAC address generation unit 14 sets a set of a local IP address and a destination multicast MAC address generated in association with the local IP address in the MAC address rewriting unit 20 as destination multicast MAC address information.

  Further, the IP address rewriting unit 19 of the station side communication device 1 sets the local IP address rewriting information from the global IP address and the IP address based on the IP conversion information notified from the local IP address registration unit 12 (step S105). ).

  Next, the operation of the multicast transfer request process of the communication system according to the first embodiment will be described with reference to the sequence diagram of FIG. When a multicast transfer request occurs, the multicast transfer request unit 33 of the terminal device 3-1 extracts the multicast group information of the multicast group to be requested from the multicast group storage unit 32 (step S200).

  Specifically, the multicast transfer request unit 33 searches the multicast group information stored in the multicast group storage unit 32 using the multicast group to be requested as a search key, and associates it with the multicast group that matches the search key. Extracted information.

  The multicast transfer request unit 33 generates a multicast transfer request frame based on the extracted multicast group information (step S201). Here, the destination IP address of the multicast group information is the local IP address by the local IP address registration processing described with reference to the sequence diagram of FIG. Therefore, the multicast transfer request unit 33 generates a multicast transfer request frame including the local IP address.

  The multicast transfer request unit 33 transmits the generated multicast transfer request frame to the subscriber terminal device 6-1 via the subscriber side I / F unit 35 (step S202). The terminal side I / F unit 62 of the subscriber terminal device 6-1 receives the multicast transfer request frame. The terminal side I / F unit 62 recognizes that the received frame is a multicast transfer request frame, and transmits the multicast transfer request frame to the station side communication device 1 via the station side I / F unit 61.

  When the transfer request extraction unit 15 of the station side communication device 1 receives the frame from the terminal device 3-1 via the subscriber side I / F unit 23, it determines whether or not the received frame is a multicast transfer request frame. Determination is made (step S203). If it is not a multicast transfer request frame (No at Step S203), the transfer request extraction unit 15 transmits the received frame to the network 8 via the network I / F unit 22 (Step S204).

  In the case of a multicast transfer request frame (Yes in step S203), the transfer request extraction unit 15 outputs the multicast transfer request frame to the transmission filter generation unit 16. The transmission filter generation unit 16 generates a transmission filter based on the multicast transfer request frame (step S205).

  Specifically, the transparent filter generation unit 16 identifies a destination multicast IP address that is a target of multicast transfer included in the multicast transfer request frame, and has a frame having a destination multicast MAC address associated with the identified destination multicast IP address. A transparent filter (destination multicast MAC address) for transmitting The transmission filter generation unit 16 notifies the transmission filter request unit 17 of the generated transmission filter.

  The transmission filter request unit 17 generates a transmission filter setting request frame for requesting the subscriber terminal device 6-1 that is a transfer request source to set the transmission filter notified from the transmission filter generation unit 16 (step S206). The transmission filter request unit 17 includes a transmission filter (here, the destination multicast MAC address) to be set in the transmission filter setting request frame. The transmission filter request unit 17 transmits the transmission filter setting request frame generated via the subscriber side I / F unit 23 to the subscriber terminal device 6-1 that accommodates the terminal device 3-1 that has transmitted the multicast transfer request frame. (Step S207).

  The transmission filter setting unit 63 of the subscriber terminal device 6-1 sets the transmission filter in the transmission filter identification unit 642 based on the transmission filter setting request frame received via the station side I / F unit 61 (step S208). .

  Next, the frame transfer processing operation of the communication system of the first embodiment will be described with reference to the sequence diagram of FIG. The multicast frames transmitted by the multicast distribution servers 5-1 and 5-2 reach the station side communication device 1 via the network 8.

  When receiving the frame via the network I / F unit 22, the destination determination unit 18 of the station side communication device 1 determines whether or not the received frame is a multicast transfer target frame, that is, the received frame is a multicast frame. Is determined (step S300). When it is determined that the frame is a multicast frame (step S300, Yes), the destination determination unit 18 outputs the multicast frame to the IP address rewriting unit 19.

  The IP address rewriting unit 19 rewrites the global IP address of the multicast frame with the local IP address based on the IP translation information (step S301). In the IP address rewriting unit 19, IP translation information is set by the local IP address registration unit 12 in the local IP address registration process described with reference to the sequence diagram of FIG. 4. The IP address rewriting unit 19 rewrites the global IP address of the multicast frame with the local IP address using the set IP conversion information. The local IP address registration unit 12 may use the IP conversion information stored in the conversion table 11 instead of setting the IP conversion information in the IP address rewriting unit 19.

  Specifically, the IP address rewriting unit 19 uses the destination multicast IP address (global IP address) stored in the destination IP address field of the TCP / IP header of the multicast frame and the source IP stored in the source IP address field. An address (local IP address) is extracted. The IP address rewriting unit 19 searches the global IP address and local IP address pair of the IP translation information registered using the extracted global IP address and local IP address pair as a search key, and the global IP address that matches the search key And a local IP address associated with the set of local IP addresses.

  The IP address rewriting unit 19 rewrites the global address stored in the destination IP address field of the TCP / IP header of the multicast frame with the acquired local IP address. The IP address rewriting unit 19 outputs the multicast frame in which the destination IP address field is rewritten to the MAC address rewriting unit 20.

  The MAC address rewriting unit 20 rewrites the destination multicast MAC address of the multicast frame rewritten to the local IP address to the destination multicast MAC address associated with the local IP address (step S303).

  Specifically, the MAC address rewriting unit 20 includes the local IP address and the destination multicast MAC generated in association with the local IP address in the local IP address registration process described with reference to the sequence diagram of FIG. A pair with an address is set as destination multicast MAC address information. The MAC address rewriting unit 20 extracts the destination IP address (local IP address) stored in the destination IP address field of the TCP / IP header of the multicast frame. The MAC address rewriting unit 20 searches the local IP address of the destination multicast MAC address information using the extracted local IP address as a search key, and acquires the destination multicast MAC address paired with the local IP address that matches the search key.

  The MAC address rewriting unit 20 stores the acquired destination multicast MAC address in the destination MAC address field of the MAC header of the multicast frame, and rewrites the destination multicast MAC address with the destination multicast MAC address associated with the local IP address. The MAC address rewriting unit 20 outputs the multicast frame in which the destination MAC address field is rewritten to the LLID adding unit 21.

  The LLID assigning unit 21 assigns an LLID (broadcast LLID) indicating that the frame is broadcast to the preamble field of the multicast frame in which the destination MAC address field is rewritten (step S303).

  On the other hand, when it is determined that the received frame is not a multicast frame (No in step S300), the destination determination unit 18 outputs the received frame to the LLID adding unit 21. The LLID assigning unit 21 assigns an LLID (unicast LLID) indicating that the frame is unicast to the preamble field of the frame input from the destination determining unit 18 (step S304).

  After assigning a preamble field to the LLID corresponding to the frame, the LLID assigning unit 21 transmits a frame with LLID to the fiber 7 via the subscriber-side I / F unit 23 (step S305). Specifically, the LLID giving unit 21 broadcasts the frame when the broadcast LLID is given, and unicasts the frame when the unicast LLID is given.

  When the LLID processing unit 641 of the subscriber terminating device 6-1 receives the frame via the station-side I / F unit 61, the LLID processing unit 641 sends a frame addressed to itself or broadcast based on the LLID stored in the preamble field of the received frame. It is determined whether or not (step S306). When it is determined that the frame is addressed to the own apparatus or broadcast (Yes in step S306), the LLID processing unit 641 outputs the frame to the transmission filter identifying unit 642.

  The transmission filter identification unit 642 determines whether the frame input from the LLID processing unit 641 is a multicast frame (step S307). Specifically, the transparent filter identifying unit 642 extracts the MAC address stored in the destination MAC address field of the MAC header of the frame, and whether or not the extracted MAC address is a destination multicast MAC address indicating a multicast transfer target. Determine. If the transparent filter identifying unit 642 determines that the extracted MAC address is a destination multicast MAC address indicating a multicast transfer target, the transparent filter identifying unit 642 determines that the frame is a multicast frame, and the extracted MAC address indicates a multicast transfer target. If it is determined that it is not the destination multicast MAC address, it is determined that the frame is not a multicast frame.

  When it is determined that the frame is a multicast frame (step S307, Yes), the transmission filter identifying unit 642 sets the transmission set by the transmission filter setting unit 63 by the multicast transfer request processing described with reference to the sequence diagram of FIG. It is determined whether or not the filter (destination multicast MAC address) matches the destination multicast MAC address stored in the destination MAC address field of the MAC header of the frame (step S308).

  When the transparent filter and the destination multicast MAC address stored in the destination MAC address field of the MAC header of the frame do not match (No in step S308), or when it is determined that the frame is not addressed to the own device or broadcast (step S306, No), the LLID processing unit 641 or the transmission filter identifying unit 642 discards the frame (step S309).

  On the other hand, when the transmission filter matches the destination multicast MAC address stored in the destination MAC address field of the MAC header of the frame (step S308, Yes), or when it is determined that the frame is not a multicast frame (step S307, No), the transmission filter identifying unit 642 transfers the frame to the terminal device 3-1 via the terminal-side I / F unit 62 (step S310).

  When the frame receiving unit 34 of the terminal device 3-1 receives the frame via the subscriber-side I / F unit 35, the frame receiving unit 34 performs a predetermined frame receiving process on the received frame and sends it to an upper layer processing unit (not shown). Output (step S311).

  As described above, in the first embodiment, the station side communication device 1 is the destination multicast IP address of the multicast frame distributed by the multicast distribution servers 5-1 and 5-2 stored in the conversion table 11. Local IP used among the station side communication device 1, the subscriber termination devices 6-1 to 6-3, and the terminal devices 3-1 to 3-3 for a set of a global IP address and a source IP address that is a source IP address Based on the IP translation information associated with the address, and the global IP address and source IP address of the multicast frame distributed by the multicast distribution servers 5-1 and 5-2, the global IP address of the multicast frame is rewritten to the local IP address. Transfer to subscriber termination devices 6-1 to 6-3 The devices 6-1 to 6-3 determine whether or not to forward the multicast frame received from the station side communication device 1 to the terminal devices 3-1 to 3-3 accommodated by the device by using a preset transmission filter. Therefore, a frame that satisfies the conditions of both addresses in response to a multicast transfer request specifying both the destination multicast IP address and the source IP address can be controlled as a multicast transfer target.

  In the first embodiment, different local IP addresses are assigned to two types of multicast frames having the same destination multicast IP address but different transfer source IP addresses. It is possible to identify the multicast frame addressed to the same multicast IP address transmitted from 5-1 and 5-2, and specify the distribution source.

  Further, the local IP address is an IP address used only between the station side communication device 1, the subscriber termination devices 6-1 to 6-3, and the terminal devices 3-1 to 3-3. Even when a large number of station-side communication devices 1 are connected, different rules are used among the station-side communication device 1, subscriber termination devices 6-1 to 6-3, and terminal devices 3-1 to 3-3. Based on this, IP conversion information can be constructed. Thereby, it is possible to freely select a multicast signal to be transferred to each of the area where the station side communication device 1 is installed and the terminal devices 3-1 to 3-3 that perform multicast distribution.

  Further, since the local IP address is set for the set of the destination multicast IP address (global IP address) and the transfer source IP address (source IP address) uniquely determined in the network, the transfer source IP address, that is, Even if the multicast distribution servers 5-1 and 5-2 are exchanged, both of the multicast transfer requests for specifying both the destination multicast IP address and the source IP address are changed by only changing the IP conversion information of the station side communication device 1. Frames that satisfy the address condition can be controlled as multicast transfer targets.

  Moreover, in this Embodiment 1, the station side communication apparatus 1 notifies IP conversion information to the terminal devices 3-1 to 3-3, and the terminal devices 3-1 to 3-3 notify the notified IP conversion information. Since the global IP address of the multicast group information is changed to the local IP address based on the above, only the station side communication device and the terminal device are changed without changing the subscriber termination device in the conventional communication system. In response to a multicast transfer request specifying both the destination multicast IP address and the source IP address, a frame that satisfies the conditions of both addresses can be controlled as a multicast transfer target.

  In the first embodiment, the station side communication device 1 generates a transmission filter and notifies the subscriber termination devices 6-1 to 6-3, but the subscriber termination devices 6-1 to 6-6. -3 may generate a transmission filter. In this case, the transfer request extraction unit 15 and the transmission filter generation unit 16 of the station side communication device 1 are provided in the subscriber termination devices 6-1 to 6-3, and the transmission filter generated by the transmission filter generation unit 16 is used as the transmission filter setting unit. 63 may be set in the transmission filter identification unit 642.

  In the first embodiment, the communication system (PON system) connected in the PON topology has been described as an example. However, the multicast transfer using the destination IP address translation in the communication system of the present invention is performed in the layer 2 mode. The present invention can also be applied to a system that transmits an Ethernet (registered trademark) frame represented by a switch.

Embodiment 2. FIG.
A second embodiment of the present invention will be described with reference to FIGS. In the first embodiment, the destination multicast IP address is determined using the local IP address having a one-to-one relationship with the set of the destination multicast IP address (global IP address) and the source IP address (source IP address). Although multicast transfer specifying both of the source IP addresses has been realized, in the second embodiment, destination multicast is performed using a local MAC address having a one-to-one relationship with a set of global IP address and source IP address. A communication system that realizes multicast transfer specifying both an IP address and a source IP address will be described.

  The communication system of the second embodiment includes the station side communication device 1, the subscriber terminal devices 6-1 to 6-3, and the terminal devices 3-1 to 3-3 of the first embodiment shown in FIG. Is provided with a station side communication device 1a, subscriber terminal devices 6a-1 to 6a-3, and terminal devices 3a-1 to 3a-3.

  FIG. 7 is a block diagram showing a configuration of the station side communication device 1a of the communication system according to the second embodiment. The station side communication device 1a shown in FIG. 7 replaces the MAC address generation unit 14, the MAC address rewriting unit 20, and the local address setting unit 13 of the station side communication device 1 of the first embodiment shown in FIG. Are provided with a MAC address generation unit 14a, a MAC address rewriting unit 20a, and a local address setting unit 13a. The conversion table 11, the local IP address registration unit 12, and the IP address rewriting unit 19 are deleted, and the local MAC address registration unit 27, A transparent filter rewriting unit 24, a destination MAC address conversion table 25, and an IP-MAC conversion table 26 are added. Components having the same functions as those in the station side communication apparatus 1 of the first embodiment shown in FIG. 1 are given the same reference numerals, and redundant descriptions are omitted.

  The local MAC address registration unit 27 receives registration information (MAC correspondence) input using an input unit (not shown) and notifies the MAC address generation unit 14a. Here, the MAC correspondence relationship refers to the global IP address and the source IP stored in the destination IP address field of the TCP / IP header of the frame transmitted from the multicast distribution servers 5-1 and 5-2 to the own device. This is information in which a pair of a source IP address stored in the address field is associated with an arbitrary destination multicast MAC address (hereinafter referred to as a local MAC address) having a one-to-one relationship with the pair.

  The MAC address generation unit 14a generates a destination multicast MAC address associated with the global IP address (hereinafter referred to as a global MAC address). The MAC address generation unit 14 a stores destination MAC conversion information in which the generated global MAC address and local MAC address are associated with each other in the destination MAC address conversion table 25. Further, the MAC address generation unit 14a stores the MAC correspondence as IP-MAC conversion information in the IP-MAC conversion table 26.

  The local address setting unit 13 a generates a destination MAC conversion information notification frame including the destination MAC conversion information stored in the destination MAC address conversion table 25, and uses the generated destination MAC conversion information notification frame as the subscriber-side I / F unit 23. To the subscriber terminal devices 6a-1 to 6a-3.

  The transmission filter rewriting unit 24 rewrites the destination MAC address of the transmission filter generated by the transmission filter generation unit 16 based on the destination MAC address conversion table 25 to the local MAC address.

  The MAC address rewriting unit 20a rewrites the destination MAC address of the multicast frame to the local MAC address based on the IP-MAC conversion information stored in the IP-MAC conversion table 26.

  The subscriber termination devices 6a-1 to 6a-3 have the same function. The terminal devices 3a-1 to 3a-3 have the same function. With reference to the block diagram showing the configuration of the subscriber terminal device 6a-1 and the terminal device 3a-1 shown in FIG. 8, the functions of the subscriber terminal device and the terminal device will be described.

  The subscriber terminator 6a-1 of the second embodiment shown in FIG. 8 is different from the subscriber terminator 6-1 of the first embodiment shown in FIG. 3 in the local MAC address setting unit 65 and MAC address rewriting. A portion 66 is added. Components having the same functions as those of the subscriber terminal device 6-1 of the first embodiment shown in FIG. 3 are given the same reference numerals, and redundant descriptions are omitted.

  The local MAC address setting unit 65 sets the destination MAC conversion information included in the destination MAC conversion information notification frame received from the station side communication device 1a in the MAC address rewriting unit 66. The MAC address rewriting unit 66 rewrites the destination MAC address (local MAC address) of the multicast frame to the global MAC address based on the destination MAC conversion information.

  In the terminal device 3a-1 of the second embodiment shown in FIG. 8, the local address setting unit 31 is deleted from the terminal device 3-1 of the first embodiment shown in FIG. Components having the same functions as those of the terminal device 3-1 of the first embodiment shown in FIG. 3 are given the same reference numerals, and redundant descriptions are omitted.

  Next, referring to the sequence diagrams of FIGS. 9 to 11, the operation of the communication system according to the first embodiment will be described by taking the station side communication device 1 a, the subscriber termination device 6 a-1, and the terminal device 3 a-1 as examples. I will give you a description.

  First, the operation of the destination MAC conversion information setting process for setting the destination MAC conversion information in the subscriber terminal device 6a-1 will be described with reference to the sequence diagram of FIG. The administrator uses the input means (not shown) of the station side communication device 1a to input the local MAC address associated with the combination of the global IP address and the source IP address to the station side communication device 1a as the MAC correspondence.

  When the MAC correspondence is input, the local MAC address registration unit 27 of the station side communication device 1a receives the input MAC correspondence and outputs it to the MAC address generation unit 14a. The MAC address generation unit 14a generates a global MAC address associated with the global IP address in the MAC correspondence relationship based on the MAC correspondence relationship (Step S400).

  The MAC address generation unit 14a stores (registers) destination MAC conversion information in which the generated global MAC address and local MAC address are associated with each other in the destination MAC address conversion table 25 (step S401). The MAC address generation unit 14a notifies the transmission filter rewriting unit 24 and the local address setting unit 13a that the destination MAC conversion information is registered in the destination MAC address conversion table 25.

  In addition, the MAC address generation unit 14a stores, in the IP-MAC conversion table 26, a MAC correspondence relationship including local MAC addresses that are associated one-to-one with a combination of a global IP address and a source IP address as IP-MAC conversion information. (Register) (step S402). The MAC address generation unit 14a notifies the MAC address rewriting unit 20a that the IP-MAC conversion information is stored in the IP-MAC conversion table.

  The local address setting unit 13a reads the destination MAC conversion information stored in the destination MAC address conversion table 25, and generates a destination MAC conversion information notification frame including the read destination MAC conversion information (step S403). The local address setting unit 13a transmits the generated destination MAC conversion information notification frame to the subscriber terminal device 6a-1 via the subscriber I / F unit 23 (step S404).

  The station side I / F unit 61 of the subscriber terminal device 6a-1 receives the destination MAC conversion information notification frame and outputs it to the local MAC address setting unit 65. The local MAC address setting unit 65 extracts the destination MAC conversion information included in the destination MAC conversion information notification frame, and sets the extracted destination MAC conversion information in the MAC address rewriting unit 66 (step S405).

  Next, the operation of the multicast transfer request process of the communication system of the second embodiment will be described with reference to the sequence diagram of FIG. The detailed description of the same operation as the multicast transfer request processing operation of the communication system of the first embodiment described with reference to the sequence diagram of FIG. 5 is omitted.

  When a multicast transfer request occurs, the multicast transfer request unit 33 of the terminal device 3a-1 extracts the multicast group information of the multicast group to be requested from the multicast group storage unit 32 (step S500).

  The multicast transfer request unit 33 generates a multicast transfer request frame based on the extracted multicast group information (step S501). The destination IP address of the multicast group information stored in the multicast group storage unit 32 is a global IP address. Therefore, the global IP address is stored in the destination IP address field of the TCP / IP header of the multicast transfer request frame.

  The multicast transfer request unit 33 transmits the generated multicast transfer request frame to the subscriber terminal device 6a-1 via the subscriber I / F unit 35 (step S502). The terminal side I / F unit 62 of the subscriber terminal device 6a-1 recognizes that the received frame is a multicast transfer request frame, and communicates the multicast transfer request frame via the station side I / F unit 61. Send to device 1a.

  When the transfer request extraction unit 15 of the station side communication device 1a receives the frame from the terminal device 3a-1 via the subscriber side I / F unit 23, it determines whether or not the received frame is a multicast transfer request frame. Determination is made (step S503). If the received frame is not a multicast transfer request frame (step S503, No), the transfer request extraction unit 15 transmits the received frame to the network 8 via the network I / F unit 22 (step S504).

  In the case of a multicast transfer request frame (step S503, Yes), the transfer request extraction unit 15 outputs the multicast transfer request frame to the transmission filter generation unit 16. The transmission filter generation unit 16 generates a transmission filter based on the multicast transfer request frame (step S505), and outputs the created transmission filter to the transmission filter rewriting unit 24.

  The transparent filter rewriting unit 24 rewrites the destination MAC address of the transparent filter to the local MAC address based on the destination MAC address conversion table 25 (step S506). Specifically, the transparent filter has a global MAC address. The transparent filter rewriting unit 24 searches the global MAC address of the destination MAC conversion information stored in the destination MAC address conversion table 25 using the global MAC address as a search key, and associates it with the global MAC address that matches the search key. Get the local MAC address. The transparent filter rewriting unit 24 rewrites the global MAC address of the transparent filter with the acquired local MAC address. When there is no global MAC address that matches the search key, the transparent filter rewriting unit 24 may use the global MAC address as a transparent filter as it is, or may perform a predetermined process. The transmission filter rewriting unit 24 notifies the transmission filter request unit 17 of the transmission filter rewritten to the local MAC address.

  A transmission filter setting request frame for requesting the subscriber terminal device 6a-1, which is a transfer request source, to set the transmission filter notified from the transmission filter generation unit 16 is generated (step S507). The transmission filter request unit 17 includes a transmission filter (here, a local MAC address) to be set in the transmission filter setting request frame. The transmission filter request unit 17 transmits the transmission filter setting request frame generated via the subscriber side I / F unit 23 to the subscriber terminal device 6a-1 (step S508).

  The transmission filter setting unit 63 of the subscriber terminating device 6a-1 sets the transmission filter in the transmission filter identification unit 642 based on the transmission filter setting request frame received via the station side I / F unit 61 (step S509). .

  Next, the frame transfer processing operation of the communication system of the second embodiment will be described with reference to the sequence diagram of FIG. The detailed description of the same operation as the frame transfer processing operation of the communication system of the first embodiment described with reference to the sequence diagram of FIG. 6 is omitted.

  When receiving the frame via the network I / F unit 22, the destination determination unit 18 of the station side communication device 1a determines whether or not the received frame is a multicast transfer target frame, that is, the received frame is a multicast frame. Is determined (step S600). If it is determined that the frame is a multicast frame (step S600, Yes), the destination determination unit 18 outputs the multicast frame to the MAC address rewriting unit 20a.

  The MAC address rewriting unit 20a rewrites the destination MAC address of the multicast frame to the local MAC address based on the IP-MAC conversion information stored in the IP-MAC conversion table 26 (step S601).

  Specifically, the MAC address rewriting unit 20a performs the destination multicast IP address (global IP address) and the source IP address (source IP address) stored in the destination IP address field and the source IP address field of the TCP / IP header of the multicast frame. Local IP address). The MAC address conversion unit 20a searches for the set of the global IP address and the local IP address in the IP-MAC conversion information using the extracted set of the global IP address and the local IP address as a search key, and the global IP address that matches the search key And the local destination MAC address of the IP-MAC conversion information associated with the pair of local IP addresses. The MAC address rewriting unit 20a stores the acquired local destination MAC address in the destination MAC address field of the MAC header of the multicast frame and rewrites the destination MAC address to the local MAC address. The MAC address rewriting unit 20 a outputs the multicast frame in which the destination MAC address field is rewritten to the LLID adding unit 21.

  The LLID assigning unit 21 assigns an LLID (broadcast LLID) indicating that the frame is broadcast to the preamble field of the multicast frame in which the destination MAC address field is rewritten (step S602).

  On the other hand, when it is determined that the received frame is not a multicast frame (No in step S600), the destination determining unit 18 outputs the received frame to the LLID adding unit 21. The LLID assigning unit 21 assigns an LLID (unicast LLID) indicating that the frame is unicast to the preamble field of the frame input from the destination determining unit 18 (step S603).

  After assigning the LLID corresponding to the frame to the preamble field, the LLID assigning unit 21 transmits the frame with the LLID to the fiber 7 via the subscriber side I / F unit 23 (step S604).

  When the LLID processing unit 641 of the subscriber terminating device 6a-1 receives the frame via the station-side I / F unit 61, the LLID processing unit 641 receives a frame addressed to itself or broadcasts based on the LLID stored in the preamble field of the received frame. It is determined whether or not (step S605). When it is determined that the frame is addressed to the own device or broadcast (Yes in step S605), the LLID processing unit 641 outputs the frame to the transmission filter identifying unit 642.

  The transmission filter identifying unit 642 determines whether or not the frame input from the LLID processing unit 641 is a multicast frame (step S606). When it determines with it not being a multicast frame (step S606, No), the permeation | transmission filter identification part 642 transmits a flame | frame to the terminal device 3a-1 via the terminal side I / F part 62 (step S610).

  When it is determined that the frame is a multicast frame (step S606, Yes), the transmission filter identifying unit 642 sets the transmission set by the transmission filter setting unit 63 by the multicast transfer request process described with reference to the sequence diagram of FIG. Whether the filter (local MAC address) matches the destination MAC address stored in the destination MAC address field of the MAC header of the frame (rewritten to the local MAC address by the MAC address rewriting unit 20a of the station side communication device 1a) It is determined whether or not (step S607).

  When the destination MAC address stored in the destination MAC address field of the MAC header of the frame does not match the transparent filter (No at Step S607), or when it is determined that the frame is not addressed to the own apparatus or broadcast (No at Step S605) ), The LLID processing unit 641 or the transmission filter identifying unit 642 discards the frame (step S608).

  When the transmission filter matches the destination multicast MAC address stored in the destination MAC address field of the MAC header of the frame (step S607, Yes), the transmission filter identification unit 642 outputs the frame to the MAC address rewriting unit 66.

  The MAC address rewriting unit 66 rewrites the destination MAC address based on the destination MAC conversion information set by the local MAC address setting unit 65 by the destination MAC conversion information setting process described with reference to the sequence diagram of FIG. Step S609).

  Specifically, the MAC address rewriting unit 66 extracts the destination MAC address (here, the local MAC address) stored in the destination MAC address field of the MAC header of the frame. The MAC address rewriting unit 66 searches the local MAC address of the destination MAC conversion information using the extracted local MAC address as a search key, and acquires a global MAC address associated with the local MAC address that matches the search key. The MAC address rewriting unit 66 stores the acquired global MAC address in the destination MAC address field of the MAC header of the frame, and rewrites the destination MAC address from the local MAC address to the global MAC address.

  The MAC address rewriting unit 66 transmits the frame in which the destination MAC address is rewritten to the terminal device 3a-1 via the terminal side I / F unit 62 (step S610).

  When the frame receiving unit 34 of the terminal device 3a-1 receives the frame via the subscriber side I / F unit 35, the frame receiving unit 34 performs a predetermined frame receiving process on the received frame and sends it to an upper layer processing unit (not shown). Output (step S611).

  As described above, in the second embodiment, the station side communication device 1a performs the destination multicast IP of the multicast frame distributed by the multicast distribution servers 5-1 and 5-2 stored in the IP-MAC conversion table 26. An IP-MAC in which a local MAC address used between the station side communication device 1a and the subscriber termination devices 6a-1 to 6a-3 is associated with a set of a global IP address that is an address and a source IP address that is a source IP address Based on the conversion information and the global IP address and source IP address of the multicast frame distributed by the multicast distribution servers 5-1 and 502, the destination MAC address of the multicast frame is rewritten to the local MAC address, and the subscriber termination device 6a-1 Forward to ~ 6a-3, Whether or not the incoming terminal devices 6a-1 to 6a-3 forward the multicast frames received from the station side communication device 1a to the terminal devices 3a-1 to 3a-3 accommodated by the own device by using a preset transmission filter. Multicast determined to be transferred to the terminal devices 3a-1 to 3a-3 accommodated by the own device based on destination MAC conversion information in which a global MAC address related to a preset local MAC address is registered Since the destination MAC address of the frame is rewritten and transferred to the terminal devices 3a-1 to 3a-3, the condition of both addresses for the multicast transfer request specifying both the destination multicast IP address and the source IP address Frames satisfying the condition can be controlled as multicast transfer targets.

  In the second embodiment, different local MAC addresses are assigned to two types of multicast frames having the same destination multicast IP address but different transfer source IP addresses. It is possible to identify the multicast frame addressed to the same multicast IP address transmitted from 5-1 and 5-2, and specify the distribution source.

  Further, since the local MAC address is set for a set of a destination multicast IP address (global IP address) and a transfer source IP address (source IP address) uniquely determined in the network, the transfer source IP address, that is, Even if the multicast distribution servers 5-1 and 5-2 are exchanged, both of the multicast transfer requests for specifying both the destination multicast IP address and the source IP address are changed by only changing the IP conversion information of the station side communication device 1. Frames that satisfy the address condition can be controlled as multicast transfer targets.

  Furthermore, since the local MAC address is used only between the station side communication device 1a and the subscriber termination devices 6a-1 to 6a-3, the station side can be changed without changing the terminal device in the conventional communication system. Frames that satisfy the conditions of both addresses can be controlled as multicast forwarding targets for multicast forwarding requests that specify both the destination multicast IP address and the source IP address by simply changing the communication device and the subscriber termination device. The service can be upgraded without the user's knowledge.

  In the second embodiment, the station side communication device 1a generates a transmission filter and notifies the subscriber termination devices 6a-1 to 6a-3. However, the subscriber termination devices 6a-1 to 6a -3 may generate a transmission filter. In this case, the transfer request extracting unit 15, the transmission filter generating unit 16, and the transmission filter rewriting unit 24 of the station side communication device 1a are provided in the subscriber termination devices 6a-1 to 6a-3, and the transmission filter rewriting unit 24 generates The transmission filter setting unit 63 may set the transmission filter in the transmission filter identification unit 642.

  In the second embodiment, the communication system (PON system) connected in the PON topology has been described as an example. However, the multicast transfer using the destination MAC address conversion in the communication system of the present invention is performed in the layer 2 mode. The present invention can also be applied to a system that transmits an Ethernet (registered trademark) frame represented by a switch.

  As described above, the communication system according to the present invention includes a single station-side communication device connected to a network to which a plurality of multicast distribution servers are connected, and one to a plurality of subscriber termination devices that accommodate terminal devices. Useful for systems connected by optical transmission media, and in particular, communications that control frames satisfying the conditions of both addresses as multicast transfer targets for multicast transfer requests that specify both the destination multicast IP address and the source IP address Suitable for the system.

It is a figure which shows the structure of Embodiment 1 of the communication system in this invention. It is a block diagram which shows the structure of the station side communication apparatus shown in FIG. It is a block diagram which shows the structure of the subscriber termination | terminus apparatus and terminal device shown in FIG. FIG. 6 is a sequence diagram for explaining an operation of local IP address setting processing of the communication system according to the first embodiment. 6 is a sequence diagram for explaining an operation of a multicast transfer request process of the communication system according to the first embodiment. FIG. 6 is a sequence diagram for explaining an operation of a frame transfer process of the communication system according to the first embodiment. FIG. 6 is a block diagram illustrating a configuration of a station-side communication device of a communication system according to Embodiment 2. FIG. FIG. 10 is a block diagram illustrating configurations of a subscriber termination device and a terminal device of the communication system according to the second embodiment. FIG. 10 is a sequence diagram for explaining an operation of local IP address setting processing of the communication system according to the second embodiment. FIG. 10 is a sequence diagram for explaining an operation of a multicast transfer request process in the communication system according to the second embodiment. FIG. 10 is a sequence diagram for explaining an operation of frame transfer processing of the communication system according to the second embodiment.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1,1a Station side communication apparatus 2 Optical fiber 3-1, 3-2, 3-3, 3a-1, 3a-2, 3a-3 Terminal apparatus 5-1, 5-2 Multicast delivery server 6-1, 6 -2, 6-3, 6a-1, 6a-2, 6a-3 Subscriber terminator 7-1, 7-2, 7-3 Fiber 8 Network 11 Conversion table 12 Local IP address registration unit 13, 13a, 31 Local address setting unit 14, 14a MAC address generating unit 15 Transfer request extracting unit 16 Transparent filter generating unit 17 Transparent filter requesting unit 18 Destination determining unit 19 IP address rewriting unit 20, 20a MAC address rewriting unit 21 LLID adding unit 22 Network I / F part 23, 35 Subscriber side I / F part 24 Transparent filter rewriting part 25 Destination MAC address conversion table 26 IP-MAC conversion Table 27 Local MAC address registration unit 32 Multicast group storage unit 33 Multicast transfer request unit 34 Frame reception unit 61 Station side I / F unit 62 Terminal side I / F unit 63 Transparent filter setting unit 64 Frame filter 65 Local MAC address setting unit 66 MAC address rewriting unit 641 LLID processing unit 642 Transparent filter identification unit

Claims (14)

In a communication system in which a single station-side communication device connected to a network to which a plurality of multicast distribution servers are connected and one to a plurality of subscriber termination devices that accommodate terminal devices are connected by an optical transmission medium.
The station side communication device is:
A set of a global IP address that is a destination multicast IP address and a source IP address that is a source IP address of a multicast frame distributed by the multicast distribution server is set between the station side communication device, the subscriber termination device, and the terminal device. A translation table in which IP translation information associated with the local IP address used in is registered,
IP that rewrites the global IP address of the multicast frame to a local IP address and forwards it to the subscriber termination device based on the global IP address and source IP address of the multicast frame distributed by the multicast distribution server and the IP translation information An address rewriting unit;
With
The subscriber termination device is:
A transmission filter identifying unit that determines whether or not to forward a multicast frame received from the station side communication device to a terminal device accommodated by the device by a preset transmission filter;
A communication system comprising: The station side communication device is:
A MAC address generator for generating a MAC address associated with the local IP address;
A MAC address rewriting unit that rewrites a destination MAC address of a multicast frame in which a global IP address is rewritten to a local IP address by the IP address rewriting unit to a MAC address generated in association with the local IP address of the multicast frame;
The communication system according to claim 1, further comprising: The station side communication device is:
A local address setting unit for notifying the terminal device of the IP conversion information registered in the conversion table via the subscriber terminal device;
Further comprising
The terminal device
A multicast group storage for storing multicast group information in which a global IP address associated with a multicast group to be requested is registered;
A local address setting unit for rewriting the global IP address of the multicast group information stored in the multicast group storage unit with a local IP address associated with the global IP address of the IP translation information notified from the station side communication device;
Multicast transfer for notifying a station side communication device via the subscriber termination device of a multicast transfer request to a multicast group to be requested using the local IP address of the multicast group information rewritten by the local address setting unit of the terminal device A request section;
The communication system according to claim 1, further comprising: The station side communication device is:
A transparent filter generating unit that generates a destination multicast MAC address associated with a local IP address included in the multicast transfer request notified from the terminal device as a transparent filter;
A transmission filter request unit for notifying the subscriber termination device of the transmission filter generated by the transmission filter generation unit;
Further comprising
The subscriber termination device is:
A transmission filter setting unit that sets the transmission filter notified from the station side communication device in the transmission filter identification unit;
The communication system according to claim 3, further comprising: In a communication system in which a single station-side communication device connected to a network to which a plurality of multicast distribution servers are connected and one to a plurality of subscriber termination devices that accommodate terminal devices are connected by an optical transmission medium.
The station side communication device is:
A local MAC used between the station side communication device and the subscriber termination device for a set of a global IP address that is a destination multicast IP address and a source IP address that is a source IP address of a multicast frame distributed by the multicast distribution server An IP-MAC conversion table in which IP-MAC conversion information associated with an address is registered;
Based on the global IP address and source IP address of the multicast frame distributed by the multicast distribution server, and the IP-MAC conversion information, the destination MAC address of the multicast frame is rewritten to the local MAC address and transferred to the subscriber termination device. MAC address rewriting unit
With
The subscriber termination device is:
A transmission filter identifying unit that determines whether or not to forward a multicast frame received from the station-side communication apparatus by a transmission filter set in advance to a terminal apparatus accommodated by the apparatus;
A MAC address rewriting unit that rewrites the destination MAC address of the multicast frame determined to be transferred to the terminal device accommodated by the transmission filter identification unit based on preset destination MAC conversion information and transfers the multicast MAC address to the terminal device;
A communication system comprising: The station side communication device is:
A destination MAC address conversion table in which destination MAC conversion information in which a global MAC address related to the local MAC address is registered;
A MAC address generation unit that generates a global MAC address related to the local MAC address, and registers the destination MAC conversion information associated with the global MAC address generated to the local MAC address in the destination MAC address conversion table;
A local address setting unit for notifying the subscriber terminal device of destination MAC conversion information generated by the MAC address generation unit;
Further comprising
The subscriber termination device is:
A local MAC address setting unit for setting the destination MAC conversion information notified from the station side communication device in the MAC address rewriting unit of the own device;
The communication system according to claim 5, further comprising: The station side communication device is:
A transparent filter generation unit that generates a destination multicast MAC address associated with the global IP address of the multicast group to be requested included in the multicast transfer request notified from the terminal device as a transparent filter;
A transparent filter rewriting unit that rewrites a transparent filter to a local MAC address associated with a global MAC address that matches the transparent filter generated by the transparent filter generation unit in the global MAC address of the destination MAC conversion information;
A transmission filter request unit for notifying the subscriber terminal device of the transmission filter rewritten by the transmission filter rewriting unit;
Further comprising
The subscriber termination device is:
A transmission filter setting unit that sets the transmission filter notified from the station side communication device in the transmission filter identification unit;
The communication system according to claim 6, further comprising: In a single station-side communication device that is connected to a network to which a plurality of multicast distribution servers are connected and that is connected to one to a plurality of subscriber termination devices that accommodate terminal devices via an optical transmission medium,
A set of a global IP address that is a destination multicast IP address and a source IP address that is a source IP address of a multicast frame distributed by the multicast distribution server is set between the station side communication device, the subscriber termination device, and the terminal device. A translation table in which IP translation information associated with the local IP address used in is registered,
IP that rewrites the global IP address of the multicast frame to a local IP address and forwards it to the subscriber termination device based on the global IP address and source IP address of the multicast frame distributed by the multicast distribution server and the IP translation information An address rewriting unit;
A station side communication device characterized by comprising: A MAC address generator for generating a MAC address associated with the local IP address;
A MAC address rewriting unit that rewrites a destination MAC address of a multicast frame in which a global IP address is rewritten to a local IP address by the IP address rewriting unit to a MAC address generated in association with the local IP address of the multicast frame;
The station side communication apparatus according to claim 8, further comprising: A local address setting unit for notifying the terminal device of the IP conversion information registered in the conversion table via the subscriber terminal device;
The station side communication apparatus according to claim 8 or 9, further comprising: A transparent filter generating unit that generates a destination multicast MAC address associated with a local IP address included in the multicast transfer request notified from the terminal device as a transparent filter;
A transmission filter request unit for notifying the subscriber termination device of the transmission filter generated by the transmission filter generation unit;
The station side communication apparatus according to claim 8 or 9, further comprising: In a single station-side communication device that is connected to a network to which a plurality of multicast distribution servers are connected and that is connected to one to a plurality of subscriber termination devices that accommodate terminal devices via an optical transmission medium,
A set of a global IP address that is a destination multicast IP address and a source IP address that is a source IP address of a multicast frame distributed by the multicast distribution server is set between the station side communication device, the subscriber termination device, and the terminal device. An IP-MAC conversion table in which IP-MAC conversion information associated with a local MAC address used in is registered,
Based on the global IP address and source IP address of the multicast frame distributed by the multicast distribution server, and the IP-MAC conversion information, the destination MAC address of the multicast frame is rewritten to the local MAC address and transferred to the subscriber termination device. MAC address rewriting unit
A station-side communication device comprising: A destination MAC address conversion table in which destination MAC conversion information in which a global MAC address related to the local MAC address is registered;
A MAC address generation unit that generates a global MAC address related to the local MAC address, and registers the destination MAC conversion information associated with the global MAC address generated to the local MAC address in the destination MAC address conversion table;
A local address setting unit for notifying the subscriber terminal device of destination MAC conversion information generated by the MAC address generation unit;
The station side communication apparatus according to claim 12, further comprising: A transparent filter generation unit that generates a destination multicast MAC address associated with the global IP address of the multicast group to be requested included in the multicast transfer request notified from the terminal device as a transparent filter;
A transparent filter rewriting unit that rewrites a transparent filter to a local MAC address associated with a global MAC address that matches the transparent filter generated by the transparent filter generation unit in the global MAC address of the destination MAC conversion information;
A transmission filter request unit for notifying the subscriber terminal device of the transmission filter rewritten by the transmission filter;
The station side communication device according to claim 12 or 13, further comprising:

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