JP3825291B2 - Relay device, server device, program, and recording medium - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a relay device, a server device, a program, and a recording medium that constitute an information distribution system in a network line.
[0002]
[Prior art]
In the Internet, there are several approaches for communicating safely while maintaining quality.
The following approaches are taken for quality.
Originally, the Internet is a best-effort network that does not have a mechanism for compensating for bandwidth and maintaining a constant quality, and packet loss and delay occur during delivery via multiple relay points. Arise.
[0003]
Therefore, in order to reduce such packet loss and delay, as a technique for compensating the bandwidth, a method for compensating communication quality with a data link technique that is a lower layer than the IP layer, and a label are attached to the header of the IP packet Thus, a method of performing priority control at the IP level, a method of managing quality by identifying packets in a layer higher than the IP layer, and the like are considered.
In an example in which compensation is supported in the data link, ATM (Asynchronous Transfer Mode) or the like is the mainstream, and is performed by utilizing the band compensation characteristic of the data link technology.
[0004]
This method is effective in a network configured with a single data link technology. However, when data distribution is performed via a plurality of data links, communication is performed by transmitting the bandwidth compensation characteristics of each data link. It is difficult to do and is likely to be complicated and wasteful.
Further, in the example performed at the IP level, it is considered that the router performs transfer by performing stepwise priority control, for example, by dividing the level into 1-4 levels according to the label of the packet header.
[0005]
However, since it is assumed that the flow identifier in the IP packet header is standardized and used, there is a possibility that the end user cannot freely allocate and deliver the packet priority level. In addition, it is difficult to perform detailed identification according to the contents of data at roughly divided priority levels.
[0006]
Further, when identifying by packet, it is necessary to pass data to an IP or higher layer for identification and processing, which may increase the processing load and cause packet transmission delay.
On the other hand, there is a proxy (proxy) technology as a technology for ensuring the safety of communication.
[0007]
FIG. 18 is a diagram for explaining an overview of proxy technology at the IP level.
Usually, at a relay point on the Internet, processing is determined by looking at the IP header. This processing is mainly route control. The primary task is to determine the destination of the packet at the relay point, and the IP layer is unaware of what information the packet contains. Furthermore, it cannot be determined from the information described in the IP header what the information in the upper layer application data portion is.
[0008]
Therefore, for example, even if the router at the network boundary determines a rule such as “Don't deliver to the network” for the image “A” distributed by HTTP (Hyper Text Transfer Protocol), Cannot be regulated.
To solve this, proxy technology at the application level is used.
[0009]
FIG. 19 is a diagram illustrating an overview of proxy technology at the application level.
In this example, processing at an application layer, which is an upper layer of IP, is performed at a relay point. For the information to be delivered, the IP layer removes the IP header from the IP packet, and passes the application data portion to the upper layer as transport layer information. Further, in the transport layer, the transport header is removed, and the application data part is passed to the upper layer as application layer information. In the application layer, it can be determined that the delivered information is an image “A” of HTTP, and delivery to the inside of the network can be prohibited.
In the current Internet, the above approach is taken to ensure the quality and safety of information.
[0010]
[Problems to be solved by the invention]
In this way, the processing required for relay devices such as gateway devices is increasing on the Internet, such as proxy technology and bandwidth compensation technology, and the relay device analyzes and processes the application data of the data to be relayed, and transfers it. Will do.
[0011]
However, realizing the above technique leads to complication of a relay device such as a gateway device and an increase in processing load. For this reason, a mechanism that secures communication quality and communicates safely while suppressing processing load is desired.
Considering from the quality compensation technology, providing the mechanism in the IP layer that performs IP packet transmission most reduces the load.
[0012]
This is because the implementation in the data link layer is difficult in a wide area network, and the implementation in the application layer requires more functions and processes. However, when IPv6 (internet protocol version 6) flow labels (headers for indicating which real-time communication each packet of a plurality of real-time communications (video, voice, etc.) belongs to) are problematic. Occurs.
[0013]
FIG. 20 is a diagram illustrating an example of a network model configured by networks having different policies.
In FIG. 20, consider a case where a packet is transmitted from network A to network B via network C.
[0014]
The meaning indicated by the flow label value described in the IP header needs to be unified in the networks A, B, and C, and the flow label value can be freely set in the network A as the delivery source and the network B as the delivery destination. The determined value must be transmitted to the network C to be relayed with the same meaning and subjected to priority control, which is considered difficult in operation.
[0015]
Therefore, a mechanism is required in which the network A and the network B determine a packet identification rule for freely performing priority control and identify the packet.
Also, considering the current proxy technology, a proxy at the relay point is required for each application. For example, implementing a proxy at a relay point in an HTTP proxy, a Telnet proxy, and all applications born infinitely increases the load on the relay point and complicates the functions.
In IP layer packet transmission, if the application included in the application data and its details can be identified by the IP header, it is possible to provide a proxy function in a simple process.
[0016]
The present invention has been made in view of such a situation, and a relay device and a server constituting an information distribution system that suppresses the load of the relay device, maintains quality at a terminal to be reproduced, and delivers safely and efficiently. An object is to provide an apparatus, a program, and a recording medium.
[0017]
[Means for Solving the Problems]
The repeater of the present invention comprises: a receiving unit that receives a packet; an information identifying unit that identifies information distributed by at least a part of an IP address described in a header of the packet received by the receiving unit; Processing means for processing the packet according to the result identified by the information identification means, and transmission means for transmitting the packet processed by the processing means.
[0018]
In addition, since the information identifying means identifies information based on the transmission source address, the transmission destination address is used exclusively for distribution. Therefore, the effect of the present invention can be realized with a smaller configuration change than the conventional system. be able to.
In addition, the receiving unit receives the notification of the IP address for identifying the information to be distributed, so that it is not necessary to determine the relationship between the information to be identified in advance and the IP address, so that various types of information can be handled.
[0019]
In addition, the transmission unit notifies the server apparatus of the IP address for identifying the information to be distributed, so that it is not necessary to determine the relationship between the information to be identified in advance and the IP address. be able to.
The processing means buffers the identified series of packets, and the transmitting means transmits the buffered packets at regular time intervals to maintain high quality streaming characteristics with respect to the specific information identified. be able to.
In addition, the transmitting means can notify the server device that the identified series of packets has been transmitted to the receiving device, thereby confirming the arrival of data requiring reliability and guaranteeing completion. .
[0020]
Further, the present invention provides a computer, a receiving means for receiving a packet, and an information identifying means for identifying information distributed by at least a part of an IP address described in a header of the packet received by the receiving means. A program for causing a packet to function as a repeater having processing means for processing the packet according to the result identified by the information identification means, and transmission means for transmitting the packet processed by the processing means. is there.
[0021]
Further, the present invention provides a computer, a receiving means for receiving a packet, and an information identifying means for identifying information distributed by at least a part of an IP address described in a header of the packet received by the receiving means. A program for causing a relay unit to include a processing unit that performs processing on the packet according to the result identified by the information identification unit, and a transmission unit that transmits the packet processed by the processing unit. A computer-readable recording medium characterized by being recorded.
[0022]
In addition, the server device of the present invention includes a packet creation unit that creates a series of packets having an IP address that identifies information to be distributed, and a transmission unit that transmits a packet created by the packet creation unit.
In addition, since the IP address is a source address, the destination address is exclusively used for distribution. Therefore, the effect of the present invention can be realized with a small configuration change compared to the conventional system.
In addition, since the transmitting means notifies the IP address in advance to the relay device, it is not necessary to determine the relationship between the information to be identified in advance and the IP address, so that various information can be handled.
[0023]
The transmission means encodes the encapsulated packet by encapsulating and transmitting the packet with a packet header having the IP address notified to the relay device as a source address and the IP address of the relay device as a destination address. For example, security can be enhanced by encapsulation.
Further, by further including a receiving means for receiving notification of an IP address for identifying information to be distributed from the repeater, it is not necessary to determine the relationship between the information to be identified in advance and the IP address, so that various types of information can be handled. it can.
[0024]
The transmission means encodes the encapsulated packet by encapsulating the packet with a packet header having the IP address of the server device as the transmission source address and the IP address notified from the relay device as the transmission destination address. For example, security can be enhanced by encapsulation.
[0025]
The transmission means uses the IP address notified from the relay as a destination address, specifies the IP address of the receiving device in an optional header, and transmits the packet to the receiving device via the relay. Information can be distributed using the routing function.
[0026]
According to another aspect of the present invention, there is provided a server apparatus comprising: a packet creation unit that creates a series of packets having an IP address that identifies information to be distributed; and a transmission unit that transmits a packet created by the packet creation unit. It is a program to make it function.
[0027]
According to another aspect of the present invention, there is provided a server apparatus comprising: a packet creation unit that creates a series of packets having an IP address that identifies information to be distributed; and a transmission unit that transmits a packet created by the packet creation unit. A computer-readable recording medium having recorded thereon a program for causing it to function.
[0028]
DETAILED DESCRIPTION OF THE INVENTION
The present invention solves the above problem by providing a system that identifies information contained in an application data portion only by IP header information of an IP packet at a relay point.
Thereby, the relay device such as the gateway device can control the quality or provide the proxy function at the IP level by the application included in the application data portion.
[0029]
Furthermore, the application data can be identified in detail in the middle of a network model via a network with a different policy.
Normally, the IP address is used in two meanings, ie, location information and terminal identification. However, by assigning an IP address to information to be transmitted, the meaning of information identification can be newly added.
Accordingly, a relay device such as a gateway device can deliver a packet by using a normal IP packet transfer function, and can identify and control upper layer information at the IP level.
[0030]
As a means for generating a packet by the information transmission source, the following method can be considered. (However, the packet generation means is not limited to the examples described below.)
1. A packet is generated using an IP header with the IP address assigned to the distribution information determined by the transmission source as the transmission source address.
2. A packet of distribution information is encapsulated with an IP header using the IP address assigned to the distribution information determined by the transmission source as the transmission source address.
3. A packet of the distribution information is encapsulated with an IP header using the IP address assigned to the distribution information determined by the relay machine as a transmission destination address.
4). By describing the IP address assigned to the distribution information determined by the relay device as the transmission destination IP address of the distribution information packet, describing the original transmission destination IP address in the optional header, and adding it to the distribution information packet Generate.
By the method as described above, the information delivery source and the repeater determine the IP address for the series of distribution information to be transmitted, and share the information by negotiating in advance.
[0031]
FIG. And 2. It is a figure which shows an identification information exchange sequence at the time of using the method of.
In this case, the transmission source transmits the determined IP address and information including the type and content of application data to be transmitted and the processing content to be controlled to the relay device.
[0032]
FIG. And 4. It is a figure which shows an identification information exchange sequence at the time of using the method of.
In this case, the transmission source transmits information including the type and content of application data to be transmitted, the processing content to be controlled, and the like to the relay device, and the relay device sends IP data to the application data as a reply. Determine the address and send it to the information sender.
[0033]
Further, the repeater prepares to receive a packet whose destination is the IP address determined by itself.
By doing in this way, the repeater can identify the content of the packet transferred to the device in the home network at the IP level.
In addition, the relay device does not need to analyze data in a higher layer than IP, and can simplify processing.
Further, the repeater can be finely controlled according to the information content of the packet.
[0034]
For example, it is possible to perform bandwidth control for real-time delivery of video data, or confirm arrival of data that requires reliability and guarantee completion. Moreover, since these rules can be determined by the information transmission source and the repeater, they can be operated freely without depending on the network to be relayed.
A configuration of an information distribution system including a relay device and a server device according to an embodiment of the present invention will be described below based on the drawings.
[0035]
FIG. 3 is a block diagram showing a configuration of an information distribution system including a relay device and a server device according to the embodiment of the present invention.
In this embodiment, stream information such as video is delivered from the server device 30 connected to the Internet 10 to the receiving devices 1 and 2 (50) on the home network 20.
[0036]
The home network 20 is constructed by a LAN or the like to which various communication devices are connected, and a device connected to the LAN includes a receiving device 50 that displays real-time data.
The home network 20 is connected to the Internet 10 via a gateway device 40 that is a repeater. The access line to the Internet 10 includes FTTH (Fiber To The Home), HFC (Hybrid Fiber Coax: optical coaxial cable), The use of a high-speed and broadband line such as ADSL (Asymmetric Digital Subscribe Line) is assumed.
[0037]
FIG. 4 is a block diagram showing a configuration of server device 30 according to the present embodiment.
Here, the case where the IPv6 protocol is used is described as an example.
The server device 30 is connected to an ISP (Internet Service Provider) on the Internet or a private network 33, and is connected to the Internet from each network.
Further, the server device 30 includes a stream information storage device 32 that stores stream information such as video, and is configured by a general-purpose computer 31 or a workstation that has a function of transmitting information to an IPv6 packet into a network.
[0038]
FIG. 5 is a block diagram showing a configuration of the gateway device according to the present embodiment.
The gateway device 40 includes an interface 41 for the Internet 10 and the home network 20 respectively, and has an IP router function 42 that relays packets between the networks. In particular, it has a routing function for transferring IPv6 packets, which are next-generation Internet protocols.
[0039]
Further, the buffer 43 for identifying the packet and storing the data is provided.
[0040]
FIG. 6 is a block diagram showing a configuration of the receiving apparatus according to the present embodiment.
The receiving device 50 includes an interface 51 connected to a home network, can send and receive IPv6 packets, and can display stream information from the received packets on a display 54 that is an external device. An MPEG decoder 53 that decodes video information such as MPEG is added to a workstation and a device having a communication function.
In addition, an input device 55 such as a remote controller or a keyboard is provided so that various request information can be transmitted from the receiving device 50 to the server device 30 and the gateway device 40.
[0041]
Next, the stream information distribution processing procedure will be described.
FIG. 7 is a diagram showing a sequence up to the start of distribution in an embodiment of the information distribution system according to the present invention.
The server device 30 provides stream information to be held to the receiving device 50 in advance. For example, a plurality of pieces of stream information such as video software are held, and the information is disclosed by making it possible to refer to it on the WWW (World Wide Web) or the like.
[0042]
The receiving device 50 connected to the home network sends the stream information to be selected and location information such as the IP address of the gateway device 40 to the server device 30 to request distribution.
The server device 30 receives the request from the receiving device 50, assigns a unique IP address to the streaming information to be distributed, adds the information to be distributed and the processing contents thereof, and notifies the gateway device 40 of it.
Thereafter, the stream information is packetized and transmitted to the receiving device 50 via the gateway device 40.
[0043]
There are two examples of how the server apparatus 30 packetizes the stream information.
First, a first example will be described.
The server device 30 creates an IPv6 packet in which the IP address of the server device 30 is set as the transmission source IP address in the header, the IP address of the reception device 50 is set as the transmission destination IP address, and streaming information is encoded in the application data portion.
Further, the created packet is encapsulated using a header with the source IP address assigned by the server device 30 and the destination IP address as the IP address of the gateway device 40 to create a packet.
[0044]
FIG. 8 is a diagram showing a first example of a packet structure in which distribution information is encapsulated in an embodiment of an information distribution system according to the present invention.
The created packet is transferred to the gateway device 40 by a normal routing function.
The gateway device 40 takes out the encapsulated packet and transfers it to the receiving device 50.
[0045]
Next, a second example will be described.
The server device 30 simply describes the IP address assigned by the server device 30 in the source IP address of the header, describes the IP address of the receiving device 50 in the destination IP address, and encodes stream information in the application data portion. Then, an IPv6 packet is created.
[0046]
FIG. 9 is a diagram showing a second example of a packet structure in which distribution information is encapsulated in an embodiment of the information distribution system according to the present invention.
The created packet is transferred by a normal routing function and reaches the receiving device 50 via the gateway device 40.
[0047]
In the first example, even if a packet is falsified on the Internet, the header describing the source and destination IP addresses is encapsulated. If the encapsulated packet is encoded, the transmission source and the transmission destination can be concealed, which is a security measure against threats such as traffic analysis.
[0048]
Also, in the second example, compared to the first example, the gateway device 40 does not need packet decapsulation processing, and can be expected to reduce load and delay. In both of the above two examples, a packet transmitted by the server device 30 is sent to the receiving device 50 via the gateway device 40 by the currently used routing control mechanism in the Internet.
[0049]
When the gateway device 40 refers to the IP address of the transmission destination and determines that the IP address is assigned by the server device 30, the gateway device 40 stores it in a buffer included in the gateway device 40 for a certain period of time.
Thereafter, the stored packets in the buffer are transmitted to the receiving device 50 at regular time intervals.
[0050]
Since the packet transmitted from the server device 30 is transmitted via a wide-area Internet network, it cannot be expected that the packet will arrive at regular intervals.
However, the stream information displayed by the receiving device 50 is a video or the like, and needs to arrive and be displayed at regular time intervals.
[0051]
The gateway device 40 eliminates the variation in the packet arrival time interval in its own buffer, and the receiving device 50 displays the stream information arriving at a constant time interval.
The server device 30 and the receiving device 50, or the gateway device 40 and the receiving device 50 perform control information such as a distribution request and stop by a normal IP packet.
By performing only the stream information with the packets described in the above two examples, the gateway device 40 can distinguish the packet with only the stream information and can deliver the packet to the receiving device 50 with high quality.
[0052]
Further, the gateway device 40 can delete the information stored in the buffer immediately after the information is delivered to the receiving device 50 or can store the information for a certain period of time.
In such a case, when trying to reproduce again, the receiving device 50 can receive again from the gateway device 40 with high quality, instead of receiving distribution from the server device 30 via the Internet.
Furthermore, when notifying the application data information from the server device 30 before delivery to the gateway device 40 when the IP address is notified, more detailed information can be transmitted in addition to the streaming data.
[0053]
For example, it may include that the video to be delivered is a video stream named “A”. This can be used, for example, to guarantee to the service site that the video stream “A” is reliably delivered from the gateway device 40, assuming a video rental site or the like that has the server device 30. . It is also possible to notify a plurality of devices at home that the video stream “A” is currently being delivered to the home network. As a result, it is also possible to receive data by a plurality of devices in the home.
That is, it means that the video information “A” is transmitted from the server device 30 on the Internet to the device in the home network, or the gateway device 40 has means for knowing that it has been transmitted.
[0054]
Next, another embodiment of the information distribution system according to the present invention will be described.
The system configuration in the present embodiment is the same as that shown in FIG. 3, and the description of the configuration and apparatus will be omitted.
The present embodiment relates to a system in which an information distribution site such as a newspaper distributes information to a terminal that is not in a home network.
[0055]
First, an information distribution procedure will be described.
The server device 30 is in a service site that provides information such as newspapers, and the service site is connected to the Internet. It is assumed that information is distributed to the receiving device 50 in the home network at a fixed time such as a morning edition or an evening edition by a contract between the service site and the home.
[0056]
At the time of contract between the service site and the home, preparation processing is performed to determine an IP address for identifying information, and two examples will be described below.
FIG. 10 is a diagram showing an example of a sequence up to the start of distribution in another embodiment of the information distribution system according to the present invention.
[0057]
The receiving device 50 transmits information including its own IP address and distribution information to the server device 30 via the gateway device 40.
When the gateway device 40 passes, the gateway device 40 assigns an IP address for receiving distribution information, adds information on the assigned IP address, and transmits the information to the server device 30.
Furthermore, preparation is made so that a packet addressed to the assigned IP address can be received from the server device 30 via the Internet.
[0058]
FIG. 11 is a diagram showing another example of a sequence up to the start of distribution in another embodiment of the information distribution system according to the present invention.
[0059]
The receiving device 50 transmits information including its own IP address, the IP address of the gateway device 40, and distribution information to the server device 30.
The server device 30 notifies the gateway device 40 that it will be distributed to the receiving device 50.
[0060]
The gateway device 40 assigns an IP address, notifies the IP address assigned to the server device 30, and responds.
Furthermore, preparation is made so that a packet addressed to the IP address assigned via the Internet can be received from the server device 30.
[0061]
Which of the above two preparation processes is applied can be selected according to the operation mode of information distribution provided by the server device 30.
Then, the server device 30 packetizes the information and distributes it to the receiving device 50.
Here, a method for packetizing the stream information by the server device 30 will be described with two examples.
[0062]
A first example will be described.
The server device 30 creates an IPv6 packet in which the IP address of the server device 30 is set as the transmission source IP address in the header, the IP address of the reception device 50 is set as the transmission destination IP address, and the distribution information is encoded in the application data portion.
Furthermore, the packet is encapsulated with a header in which the source IP address is the IP address of the server device 30 and the destination IP address is the IP address assigned by the gateway device 40 to create an IPv6 packet.
[0063]
FIG. 12 is a diagram showing an example of a packet structure in which stream information is encapsulated in another embodiment of the information distribution system according to the present invention.
The packet is transferred to the gateway device 40 by a normal routing function.
The gateway device 40 takes out the encapsulated packet and transfers it to the receiving device 50.
[0064]
A second example will be described.
The server device 30 describes the IP address of the server device 30 in the source IP address of the header, the IP address assigned by the gateway device 40 in the destination IP address, and generates an IPv6 packet in which the distribution information is encoded in the application data portion. .
Further, an IPv6 option route control header describing the IP address of the receiving device 50 is added to the generated packet header.
[0065]
FIG. 13 is a diagram illustrating an example of a packet structure of distribution information using the IPv6 option in another embodiment of the information distribution system according to the present invention.
The packet is transferred to the receiving device 50 via the gateway device 40 by the normal routing function by the route control header which is an extension header of the IPv6 option.
[0066]
In the first example, even if a packet is altered on the Internet, the destination IP address is encapsulated. If the encapsulated packet is encoded, the destination information can be concealed, which is a security measure against threats such as traffic analysis.
[0067]
Further, in the second example, the transfer can be performed by a function that is standardly implemented in the IPv6 device, and the gateway device 40 does not need a packet decapsulation process and has a lower load than the first example.
In any of the above two examples, the packet transmitted by the server device 30 is sent to the receiving device 50 via the gateway device 40.
[0068]
When the gateway device 40 refers to the IP address of the transmission destination and determines that the IP address is assigned by the server device 30, the gateway device 40 stores it in a buffer provided for itself for a certain period of time.
Thereafter, the stored packets in the buffer are transmitted to the receiving device 50 at the time specified in the contract.
The server device 30 may need to deliver information to a huge number of contract homes. When the contract times are concentrated, the processing load on the server device 30 increases.
[0069]
However, according to the present embodiment, the server device 30 can distribute information to the gateway device 40 in advance by a specified time, so the load does not become a problem.
Further, it is possible to confirm that the newspaper is distributed from the gateway device 40 to the server device 30.
Further, if the delivery has not been made at the specified time, the server device 30 can be notified of this and the delivery can be urged.
[0070]
In addition, the application can be identified in more detail in the IP address notification from the gateway device 40 to the server device 30 before distribution. For example, IP address A is used for newspaper headlines, IP address B is used for the full text of newspapers, and IP address C is used for advertisements. After distribution, the gateway device 40 and the receiving device 50 can freely set a rule such that only a headline is first sent to the receiving device 50 according to the preference of the user in the home.
[0071]
FIG. 14 is a flowchart showing a negotiation procedure between the server device and the gateway device. 14A shows a case where an IP address is notified from the server device in response to a distribution request via the gateway device, and FIG. 14B shows an IP address from the gateway device in response to a distribution request to the server device. In the case of notification, FIG. 14C is a flowchart showing a negotiation procedure in the case of notifying an IP address from the gateway device in response to a distribution request via the gateway device.
[0072]
In FIG. 14 (a), first, the server device 30 receives a distribution request from the receiving device 50 via the gateway device 40 (step S11), determines an IP address in the server device 30 (step S12), and receives the IP. The address is notified to the gateway device 40 (step S13), the gateway device 40 receives the IP address (step S14), and the negotiation is completed.
[0073]
In FIG. 14B, first, the server device 30 directly receives a distribution request from the receiving device 50 (step S21), and notifies the gateway device 40 that the distribution request has been made (step S22). The gateway device 40 receives the notification that there is a distribution request, determines an IP address (step S23), notifies the IP address to the server device 30 (step S24), and the server device 30 receives the IP address. (Step S25), and the negotiation is completed. This negotiation corresponds to the sequence shown in FIG.
[0074]
14C, first, the gateway device 40 receives a distribution request from the receiving device 50 (step S31), determines an IP address in the gateway device 40 (step S32), and sends a distribution request to the server device 30. The server device 30 receives the distribution request and the IP address (step S34), and the negotiation is completed. This negotiation corresponds to the sequence shown in FIG.
[0075]
FIG. 15 is a flowchart showing a procedure corresponding to the sequence shown in FIG. The server device 30 discloses data along the sequence shown in FIG. 7 (step S41). The receiving device 50 browses the disclosed data (step S42), waits for a distribution request (step S43), and transmits the distribution request to the server device 30 (step S44). The server device 30 receives the distribution request (step S45), determines the IP address (step S46), notifies the gateway device 40 of the IP address (step S47), and distributes the data (step S48). The gateway device 40 receives the IP address (step S49), receives data (step S50), identifies the packet of the IP address notified by decoding the IP (step S51), Then, predetermined processing such as accumulation and rearrangement in order is performed (step S52), and the data is transmitted to the receiving device 50 (step S53). The receiving device 50 receives, for example, a series of rearranged packet data at a predetermined time (step S54).
[0076]
FIG. 16 is a flowchart showing a procedure corresponding to the sequence shown in FIG. In accordance with the sequence shown in FIG. 10, the server device 30 discloses data (step S61). The receiving device 50 browses the disclosed data (step S62), waits for a distribution request (step S63), and transmits the distribution request to the gateway device 40 (step S64). The gateway device 40 receives the distribution request (step S65), determines an IP address (step S66), transmits the distribution request to the server device 30, and notifies the determined IP address (step S67). The server device 30 receives the distribution request and the IP address (step S68), assigns the IP address, and distributes the data to the gateway device 40 (step S69). The gateway device 40 receives the distribution data (step S70), identifies the packet of the IP address notified by decoding the IP (step S71), and performs predetermined processing on the packet (step S71). S72), and transmits to the receiving device 50 (step S73). The receiving device 50 receives data (step S74).
[0077]
FIG. 17 is a flowchart showing a procedure corresponding to the sequence shown in FIG. In accordance with the sequence shown in FIG. 7, the server device 30 discloses data (step S81). The receiving device 50 browses the disclosed data (step S82), waits for a distribution request (step S83), and transmits the distribution request to the server device 30 (step S84). The server device 30 receives the distribution request (step S85), and notifies the gateway device 40 that the distribution request has been made (step S86). The gateway device 40 receives the notification of the distribution request, determines the IP address (step S87), and notifies the server device 30 of the IP address (step S88). The server device 30 receives the IP address (step S89), assigns the IP address, and distributes data to the gateway device 40 (step S90). The gateway device 40 receives the distribution data (step S90), identifies the packet of the IP address notified by decoding the IP (step S91), and performs predetermined processing on the packet (step S91). S92), and transmits to the receiving device 50 (step S93). The receiving device 50 receives data (step S94).
[0078]
The relay device and the server device of the present invention are also realized by a program for causing the relay device and the server device to function. This program may be stored in a computer-readable recording medium.
In the present invention, as the recording medium, the ROM itself in the computer 31 shown in FIG. 4 may be a program medium, or a program reading device such as a CD-ROM drive is provided, and the recording medium is inserted therein. It may be a program medium such as a CD-ROM that can be read. In any case, the stored program may be configured to be accessed and executed by the CPU, or the program is read, and the read program is downloaded to the program storage area and executed. May be used. It is assumed that this download program is stored in the main device in advance.
[0079]
Here, the program medium is a recording medium configured to be separable from the main body, such as a tape system such as a magnetic tape or a cassette tape, a magnetic disk such as a flexible disk or a hard disk, or a CD-ROM / MO / MD / DVD. Even a medium carrying a fixed program, including a disk system of an optical disk, a card system such as an IC card (including a memory card) / optical card, or a semiconductor memory such as a mask ROM, EPROM, EEPROM, flash ROM, etc. Good.
[0080]
Furthermore, it may be a medium that fluidly carries the program so as to download the program from the network. When the program is downloaded from the network in this way, the download program may be stored in the apparatus main body in advance, or may be installed from another recording medium. The content stored in the recording medium is not limited to a program, and may be data.
[0081]
【The invention's effect】
The repeater can not only determine the contents of the application data part based on the IP address described in the header part of the packet, but also identify the processing contents to be performed on the application data. That is, it is possible to identify an application that can be discriminated only by an upper layer higher than the normal IP at the IP level.
[0082]
Thereby, quality compensation and confirmation of reachability to the transmission source can be realized for each data. Furthermore, by performing the discrimination by the IP transfer unit, it is possible to improve the throughput of the relay device and reduce the load.
In addition, the present invention is a model in which information identification rules are determined by a network to which a distribution destination network and a receiving terminal are connected, and can be realized via the Internet over a wide data area.
[Brief description of the drawings]
FIG. 1 is a diagram showing an example of an identification information exchange sequence by an information distribution system according to the present invention.
FIG. 2 is a diagram showing another example of an identification information exchange sequence by the information distribution system according to the present invention.
FIG. 3 is a block diagram showing a configuration in an embodiment of an information distribution system according to the present invention.
FIG. 4 is a block diagram showing a configuration of a server apparatus according to the present embodiment.
FIG. 5 is a block diagram showing a configuration of a gateway device according to the present embodiment.
FIG. 6 is a block diagram showing a configuration of a receiving apparatus according to the present embodiment.
FIG. 7 is a diagram showing a sequence up to the start of distribution in an embodiment of the information distribution system according to the present invention.
FIG. 8 is a diagram showing a first example of a structure of a packet obtained by encapsulating distribution information in an embodiment of an information distribution system according to the present invention.
FIG. 9 is a diagram showing a second example of a packet structure in which distribution information is encapsulated in an embodiment of the information distribution system according to the present invention.
FIG. 10 is a diagram showing an example of a sequence up to the start of distribution in another embodiment of the information distribution system according to the present invention.
FIG. 11 is a diagram showing another example of a sequence up to the start of distribution in another embodiment of the information distribution system according to the present invention.
FIG. 12 is a diagram showing an example of a packet structure in which stream information is encapsulated in another embodiment of the information distribution system according to the present invention.
FIG. 13 is a diagram illustrating an example of a packet structure of distribution information using the IPv6 option in another embodiment of the information distribution system according to the present invention.
FIG. 14 is a flowchart showing a negotiation procedure between a server device and a gateway device.
FIG. 15 is a flowchart showing a procedure corresponding to the sequence shown in FIG. 7;
16 is a flowchart showing a procedure corresponding to the sequence shown in FIG.
FIG. 17 is a flowchart showing a procedure corresponding to the sequence shown in FIG. 11;
FIG. 18 is a diagram illustrating an overview of proxy technology at an IP level.
FIG. 19 is a diagram illustrating an outline of proxy technology at an application level.
FIG. 20 is a diagram illustrating an example of a network model configured by networks having different policies.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 10 ... Internet, 20 ... Home network, 30 ... Server apparatus, 31 ... Computer, 32 ... Stream information storage apparatus, 33 ... Network, 40 ... Gateway apparatus, 41 ... Network interface unit, 42 ... IP router function part, 43 ... Stream Information buffer unit 50... Receiving device 51... Network interface unit 52 52 CPU 53 MPEG decoder 54 external device 55 input device

Claims (18)

For the distribution information to be transmitted, the server device and the relay device determine the IP address and negotiate in advance to share the information.
Receiving means for receiving packets from the server device;
Information identifying means for identifying the information delivered by at least a portion of the IP address described in the header of the received packet by said receiving means,
Processing means for processing the packet according to the result identified by the information identifying means;
A relay unit comprising: a transmission unit configured to transmit a packet processed by the processing unit to a reception device. The relay device according to claim 1, wherein the receiving unit receives a notification of an IP address used for identifying information to be distributed from the server device. The transmission unit, repeater according to claim 1 or 2, wherein the notifying in advance the server the IP address used to identify the information to be delivered. The transmission unit, a relay according to any one of up to 3 claim 1, characterized in that notifying that transmits a predetermined type of packet identified by the information identification means to the receiving device to the server device Machine. The repeater according to any one of claims 1 to 4 , wherein the information identification unit identifies information based on a transmission source address. 6. The method according to claim 1, wherein the processing unit buffers the identified series of packets, and the transmission unit transmits the buffered packets at regular time intervals. 7. Relay machine. In the state where the server device and the relay unit determine the IP address for the distribution information to be transmitted and share the information by negotiating in advance,
Receiving means for receiving a packet, information identifying means for identifying information distributed by at least a part of an IP address described in a header of the packet received by the receiving means, and identified by the information identifying means A program for functioning as a relay device comprising processing means for performing processing according to a result on the packet and transmission means for transmitting the packet processed by the processing means. In the state where the server device and the relay unit determine the IP address for the distribution information to be transmitted and share the information by negotiating in advance,
Receiving means for receiving a packet, information identifying means for identifying information distributed by at least a part of an IP address described in a header of the packet received by the receiving means, and identified by the information identifying means A computer-readable recording medium storing a program for functioning as a relay having processing means for performing processing according to a result on the packet and transmission means for transmitting the packet processed by the processing means Possible recording media. A server device that distributes information to a receiving device through a relay device that performs relay processing, in which the server device and the relay device determine the IP address for the distribution information to be transmitted and share information by negotiating in advance In
Packet creation means for creating a series of packets having IP addresses for identifying information to be distributed;
In repeater, and means for notifying the advance repeater an IP address indicating the packet type to be processed,
A server apparatus comprising: a transmission unit that transmits the packet created by the packet creation unit. A server device that distributes information to a receiving device through a relay device that performs relay processing, in which the server device and the relay device determine the IP address for the distribution information to be transmitted and share information by negotiating in advance In
Packet creation means for creating a series of packets having IP addresses for identifying information to be distributed;
In the repeater, means for receiving in advance an IP address indicating the packet type to be processed from the repeater;
A server apparatus comprising: a transmission unit that transmits the packet created by the packet creation unit. The server device according to claim 9 or 10, wherein the IP address is a source address. The transmission unit, an IP address notified to the relay apparatus and the transmission source address, according to claim 1 1, characterized in that transmits the encapsulated packet by the packet header has a destination address the IP address of the relay unit Server device. The transmission unit, the IP address of the server apparatus as a transmission source address, to claim 1 2, characterized in that transmits the encapsulated packet by the packet header has a destination address the IP address notified from the repeater The server apparatus of description. The transmission means transmits the packet to the receiving device via the relay device by specifying the IP address notified from the relay device as a transmission destination address, specifying the IP address of the receiving device in an optional header. The server device according to 1 or 2 . In the state where the server device and the relay unit determine the IP address for the distribution information to be transmitted and share the information by negotiating in advance,
A server device that distributes information to a receiving device through a relay device that performs relay processing, a packet generating unit that generates a series of packets having an IP address for identifying information to be distributed, and a processing target in the relay device A program for causing a server device to function as a server apparatus including means for notifying a relay station of an IP address indicating a packet type in advance and a transmission means for transmitting a packet created by the packet creation means. In the state where the server device and the relay unit determine the IP address for the distribution information to be transmitted and share the information by negotiating in advance,
A server device that distributes information to a receiving device through a relay device that performs relay processing, a packet generating unit that generates a series of packets having an IP address for identifying information to be distributed, and a processing target in the relay device A computer recorded with a program for functioning as a server apparatus comprising means for notifying a repeater of an IP address indicating a packet type in advance and a transmission means for transmitting a packet created by the packet creation means A readable recording medium. In the state where the server device and the relay unit determine the IP address for the distribution information to be transmitted and share the information by negotiating in advance,
A server device that distributes information to a receiving device through a relay device that performs relay processing, a packet generating unit that generates a series of packets having an IP address for identifying information to be distributed, and a processing target in the relay device A program for causing a server device to function as a server apparatus including means for receiving in advance an IP address indicating a packet type from a repeater and a transmission means for transmitting a packet created by the packet creation means. In the state where the server device and the relay unit determine the IP address for the distribution information to be transmitted and share the information by negotiating in advance,
A server apparatus for distributing information to the receiving apparatus via a relay apparatus for relaying process, a packet creating means for creating a series of packets having the IP address that identifies the information to be distributed, repeater smell Te, and the target of treatment A program for causing a server device to function as a server device including means for receiving in advance an IP address indicating a packet type from a repeater and a transmission means for transmitting a packet created by the packet creation means is recorded. A computer-readable recording medium.

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