JP2008028469A - Duplex system for ip packet communication device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a duplex system for an IP packet communication device which can be switched when a failure occurs. <P>SOLUTION: The duplex system consists of first and second IP packet communication devices, and a layer 2 switch to be connected to the first and second IP packet communication devices. The first and second IP packet communication devices each have an IP address and a MAC address of the same operation system and standby system. The second IP packet communication device has a destination detecting section for detecting a transmission destination IP address from a received IP packet. When a failure occurs in the first IP packet communication device in the operation system and an IP packet is broadcasted from the layer 2 switch, the second IP packet communication device of the standby system detects that the received packet is an IP address destined to the first IP packet communication device. The second IP packet communication device changes from the IP and MAC addresses of the standby system to those of the operation system, thereby switching the second IP packet communication device to the operation system. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  According to the present invention, an IP packet communication device connected to an IP (Internet Protocol) network has a duplex configuration, and the IP packet communication device is switched to a standby IP packet communication device when a failure occurs in an active IP packet communication device. It is about the system.

A conventional duplex system for an IP packet communication apparatus will be described with reference to FIG.
An IP packet communication device 202 and an IP packet communication device 203 are connected to the analog telephone 201 as a duplex configuration via an LC (Line Card) and an RSBM (Remote SuBscriber Module). The IP packet communication device 202 and the IP packet communication device 203 are connected to a layer 2 switch 205 via a LAN (Local Area Network) cable 204. The layer 2 switch 205 uses a MAC address to identify and transmit a data destination port, and is connected to the IP network 206 via a gateway (GW). A counter NW (Network) device 207 is a media server or the like, is connected to the IP network 206, and performs counter communication such as telephone and video with the IP packet communication device 202 or the IP packet communication device 203.

The IP packet communication device 202 and the IP packet communication device 203 include A / D (analog / digital) converters 211 and 221, DSPs (Digital Signal Processors) 212 and 222, UDP (User Datagram Protocol) processors 213 and 223, respectively. It comprises IP processing units 214 and 224, MAC (Media Access Control) processing units 215 and 225, and PHY (Physical Layer Device) 216 and 226.

A / D converters 211 and 221 convert analog data received from analog telephone 201 into digital data, and convert digital data received from IP network 206 into analog data. The DSPs 212 and 222 packetize the audio digital data to be transmitted as RTP (Real-time Transport Protocol) packets, and perform the reverse process when receiving them. The UDP processing units 213 and 223 extract the RTP layer from the UDP layer when receiving a packet, and insert the RTP layer into the UDP layer when transmitting a packet. The IP processing units 214 and 224 extract the UDP layer from the IP layer when receiving a packet, and insert the UDP layer into the IP layer when transmitting a packet. The MAC processing units 215 and 225 extract the IP layer from the MAC layer when receiving a packet, and insert the IP layer into the MAC layer when transmitting a packet. PHYs 216 and 226 are physical layer interface chips.

First, in the current state, the IP packet communication device 202 is operated as an active system and the IP packet communication device 203 is operated as a standby system. For example, it is assumed that voice data of a telephone is being communicated between the IP packet communication device 202 and the opposite NW device 207, and the data at that time is transmitted and received using RTP. In this case, the communication connection has already been completed and only media data is transferred. As connection means, in the case of an IP phone, SIP (Session Initiation Protocol), megaco (Media Gateway Control), etc. are common.

The media packet output from the opposite NW device 207 is switched via the IP network 206 and the layer 2 switch 205 and arrives at the PHY 216 of the IP packet communication device 202 which is the communication partner. The PHY 216 converts the MII (Media Independent Interface) format and passes it to the MAC processing unit 215. When the MAC processing unit 215 confirms that the received packet is the MAC address addressed to the IP packet communication apparatus 202 and that the FCS (Frame Check Sequence) value is correct, it passes the received packet to the IP processing unit 214. When the IP processing unit 214 confirms that the IP address is addressed to the IP packet communication device 202 and that various data in the IP header are correct, the IP processing unit 214 passes the received packet to the UDP processing unit 213. When the UDP processing unit 213 confirms that the data in the UDP header is correct, the data is transferred to the DSP 212. The DSP 212 extracts media data (voice data) from the RTP packet and passes it to the A / D converter 211. The A / D converter 211 converts the audio digital data into analog data and reproduces it, and the analog telephone 201 outputs the audio.

Normally, when the IP packet communication device 202 and the opposite NW device 207 are communicating with each other, the ARP (Address Resolution Protocol) packet is periodically output by both sides, and when the response to the ARP is returned, the ARP table or the like is obtained by each own device. It learns and tries to maintain the communication state unless the connection is terminated.
If the communication state is normal, the IP packet communication device 203 is a standby device, so nothing is done.

Thereafter, it is assumed that a failure occurs in the IP packet communication device 202. As a cause of the failure, in the case where the PHY 216 fails and the link is disconnected between the layer 2 switch 205 and the PHY 216, the layer 2 switch 205 detects the link disconnection of the IP packet communication device 202, and the layer 2 switch 205 The address of the IP packet communication device 202 is deleted from the MAC table, and the media data from the IP packet communication device 202 does not reach the opposite NW device 207, so that the opposite NW device 207 determines that the IP packet communication device 202 is out of order. The NW device 207 itself starts to output media data to the standby IP packet communication device 203.

Patents relating to IP packet transmission / reception devices have been filed as in Patent Document 1 below, and patents relating to a redundant configuration of network devices have been filed as countermeasures against failures as in Patent Document 2 below.
JP 2004-112192 A JP 2002-051068 A

However, there are the following problems in the prior art.
The counter NW device 207 that is the communication partner of the IP packet communication device 202 determines that the IP packet communication device 202 is out of order, and the counter NW device 207 needs to switch the communication partner. In other words, a processing with a load occurs in the normal opposing NW device 207.
For example, when the opposite NW device 207 distributes a large amount of data such as a media server to a plurality of clients, if a plurality of such failures occur simultaneously, the opposite NW device 207 becomes overloaded, and the service (media data Distribution, etc.) may not be maintained normally.
Further, until the communication is restored, the media packet from the opposite NW device 207 reaching the layer 2 switch 205 due to the absence of the IP packet communication device 202 from the network is broadcast by the layer 2 switch 205, and the network In some cases, media packets from the opposite NW device 207 overflow.
In addition, a case where a failure state continues for a long time depending on the state of the opposing NW device 207 is also assumed.

In order to solve such a problem, a duplex system for an IP packet communication device according to the present invention includes a first IP packet communication device and a second IP packet communication device that transmit and receive digital data as IP packets, and a first IP packet. In an IP packet communication device duplex system comprising a layer 2 switch connected to a communication device and a second IP packet communication device,
The first IP packet communication device has an IP address and a MAC address for the active system and the standby system, and the second IP packet communication device has the same IP for the active system and the standby system as the first IP packet communication device. The second IP packet communication device has an address and a MAC address, and the second IP packet communication device has a destination detection unit that detects a destination IP address from the received IP packet, and there is a failure in the active first IP packet communication device. When the IP packet is broadcast from the layer 2 switch, the standby second IP packet communication device receives the broadcast IP packet, and the received IP packet is an IP address to the first IP packet communication device. And the IP address and MAC address of the second IP packet communication device are detected as the IP address for the active system. And it switches to the active system to the second IP packet communication apparatus by substituting the MAC address.

As an effect of the invention, according to the IP packet communication device duplex system of the present invention, network route reconstruction, failure detection, and switching of IP packet communication devices can be performed quickly without applying any load to the opposing NW device 207. Can be done.

Hereinafter, an embodiment of the present invention will be described in detail with reference to FIG. In FIG. 1 described below, components and portions that are substantially the same as or equivalent to those of the prior art are denoted by the same reference numerals as those in FIG.

The configuration of the IP packet communication device duplex system will be described with reference to FIG.
The IP packet communication apparatus 101 and the IP packet communication apparatus 102 are connected to the analog telephone 201 as a duplex configuration via LC and RSBM. The IP packet communication device 101 and the IP packet communication device 102 are connected to the layer 2 switch 205 via the LAN cable 204. The layer 2 switch 205 uses the MAC address to identify and transmit the data destination port, and is connected to the IP network 206 via the gateway (GW) 103. The counter NW device 207 is a media server or the like, and is connected to the IP network 206 and performs counter communication such as telephone and video with the IP packet communication device 101 or the IP packet communication device 102.

The IP packet communication device 101 and the IP packet communication device 102 include A / D conversion units 211 and 221, DSPs 212 and 222, UDP processing units 213 and 223, IP processing units 214 and 224, MAC processing units 215 and 225, PHYs 216 and 226, respectively. , Destination detection units 111 and 121, and ARP processing units 112 and 122.
The IP packet communication device 101 and the IP packet communication device 102 have an active system IP address and MAC address, and a standby system IP address and MAC address. The IP packet communication apparatus 101 and the IP packet communication apparatus 102 have the same active IP address and MAC address, and the standby IP address and MAC address are also the same.

A / D converters 211 and 221 convert analog data received from analog telephone 201 into digital data, and convert digital data received from IP network 206 into analog data. The DSPs 212 and 222 packetize the audio digital data to be transmitted as RTP packets, and perform the reverse process when receiving them. The UDP processing units 213 and 223 extract the RTP layer from the UDP layer when receiving a packet, and insert the RTP layer into the UDP layer when transmitting a packet. The IP processing units 214 and 224 extract the UDP layer from the IP layer when receiving a packet, and insert the UDP layer into the IP layer when transmitting a packet. The MAC processing units 215 and 225 extract the IP layer from the MAC layer when receiving a packet, and insert the IP layer into the MAC layer when transmitting a packet. PHYs 216 and 226 are physical layer interface chips.

The destination detectors 111 and 121 detect whether or not the destination of the broadcast packet from the layer 2 switch 205 is a packet of the IP address of each other's IP packet communication device in a duplex configuration. For example, when the IP packet communication apparatus 101 is the active system and the IP packet communication apparatus 102 is the standby system, the destination detection unit 121 of the standby IP packet communication apparatus 102 determines that the destination of the received broadcast packet is the active system. It is detected whether or not the IP address of the IP packet communication apparatus 101 is. When the IP packet communication device 101 and the IP packet communication device 102 are the standby system, respectively, the ARP processing units 112 and 122 change the IP address and MAC address to the IP address and MAC address for the active system, and send the ARP request packet. Generated and transmitted to the gateway 103.

Here, it is assumed that the IP packet communication apparatus 101 is operated as an active system and the IP packet communication apparatus 102 is operated as a standby system. Therefore, the IP packet communication apparatus 101 uses the IP address and MAC address for the active system, and the IP packet communication apparatus 102 uses the IP address and MAC address for the standby system.

Next, the operation of the IP packet communication device duplex system will be described.
The media packet output from the opposite NW device 207 is input to the PHY 216 of the IP packet communication device 101 via the IP network 206 and the layer 2 switch 205. At this time, it is assumed that a failure has occurred in the PHY 216 of the IP packet communication apparatus 101 and a link disconnection has occurred between the PHY 216 and the layer 2 switch 205.

  The layer 2 switch 205 deletes the MAC address of the IP packet communication apparatus 101 from the MAC address table by detecting the link disconnection of the IP packet communication apparatus 101. Media packets received by the layer 2 switch 205 from the opposite NW device 207 are output as broadcast packets in the layer 2 switch 205 to all ports of the connected IP packet communication device. That is, the IP packet communication device 101 is specified as the IP address, but the MAC address is unknown, so the media packet is transmitted to the PHY of an unspecified number of IP packet communication devices with the broadcast address as FF-FF-FF-FF. Is done.

  In the IP packet communication device 102, since the media packet from the opposite NW device 207 is broadcast, the packet is received through the PHY 226, and when the MAC processing unit 225 determines that the packet is broadcast, the destination detection unit 121 and the IP processing unit are transmitted through the bus. Data is passed to 224. When the destination detection unit 121 determines that the IP address is for the IP packet communication apparatus 101, the IP packet communication apparatus 102 can determine that a failure such as a link failure has occurred in the IP packet communication apparatus 101.

  The IP processing unit 224 is operated through the control line, and thereafter, the media data from the opposite NW device 207 is passed to the analog telephone 201 through the UDP processing unit 223, the DSP 222, and the A / D conversion unit 221. Similarly, the control line changes the standby system IP address and MAC address from the standby system IP address and MAC address to the active system IP address and MAC address, and sends the ARP request packet to the neighboring gateway 103 through the layer 2 switch 205. Let The ARP processing unit 122 receives the ARP reply packet from the gateway 103, and a new route is established between the opposing NW device 207 and the IP packet communication device 102. At this time, the communication partner of the opposite NW device 207 has not changed from the original IP address addressed to the IP packet communication device 101.

In this embodiment, an IP telephone network is assumed, but the present invention can also be applied to image distribution, data communication, and the like in the same manner.

The figure which shows the structure of the duplex system of the IP packet communication apparatus of this invention The figure which shows the structure of the duplication system of the conventional IP packet communication apparatus.

Explanation of symbols

DESCRIPTION OF SYMBOLS 101 and 102 ... IP packet communication apparatus, 103 ... Gateway, 111 and 121 ... Destination detection part, 112 and 122 ... ARP processing part, 201 ... Analog telephone, 205 ... Layer 2 switch, 206 ... IP network, 207 ... Opposite NW apparatus 211 and 221... A / D conversion unit, 212 and 222... DSP, 213 and 223... UDP processing unit, 214 and 224... IP processing unit, 215 and 225... MAC processing unit, 216 and 226.

Claims (4)

From a first IP packet communication device and a second IP packet communication device that transmit and receive digital data in IP packets, and a layer 2 switch connected to the first IP packet communication device and the second IP packet communication device In an IP packet communication device duplex system,
The first IP packet communication device has an IP address and a MAC address for the active system and the standby system, and the second IP packet communication device is the same for the active system and the standby system as the first IP packet communication device. IP address and MAC address
The second IP packet communication device includes a destination detection unit that detects a destination IP address from the received IP packet,
When the first IP packet communication device is an active system and the second IP packet communication device is a standby system, a failure occurs in the first IP packet communication device, and an IP packet is transmitted from the layer 2 switch. When broadcast, the second IP packet communication device receives the broadcast IP packet, detects that the received IP packet is an IP address addressed to the first IP packet communication device, and The IP packet communication device duplex system, wherein the second IP packet communication device is switched to the active system by replacing the IP address and MAC address of the IP packet communication device with the IP address and MAC address for the active system. . The second IP packet communication device has an ARP processing unit that generates and transmits an ARP request packet;
When the IP address and MAC address of the second IP packet communication device are changed to the IP address and MAC address for the active system, the second IP packet communication device transmits the ARP request packet to the gateway connected to the layer 2 switch. 2. The IP packet communication apparatus duplex system according to claim 1, wherein the IP packet communication apparatus is switched to an active system. 3. The IP packet communication device duplex system according to claim 1, wherein the IP packet is a packet using RTP. 4. The IP packet communication device duplex system according to claim 3, wherein the IP packet is a packet using UDP.

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