JP3613204B2 - Communication channel selection system - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a communication path selection system for selecting a communication path between terminals, and more particularly to a communication path selection system for reserving a network band.
[0002]
[Prior art]
When communicating packets between terminals, if these terminals are connected to the packet communication network, an optimal communication path may be selected using a router or a routing device as a communication path switching connection point. It has been broken. When selecting a communication path, it is a large selection condition that a bandwidth necessary for communication can be reserved in the middle of the path and that the cost of the communication path is lower than other similar communication paths. For example, the smaller the number of hops between terminals, the shorter the route to the destination, so the cost can be determined by the number of hops.
[0003]
Each router in the packet communication network has a routing table. In the routing table, for each route that can be selected, route information such as the priority (priority) of those routes and whether there is a reservable bandwidth for these routes is written. Conventionally, there is a method of dynamically generating such information stored in the routing table by exchanging route information with an adjacent router when a network extension or a network failure occurs on the network. This is called dynamic routing. The route information learned by the dynamic routing protocol is stored in the routing table.
[0004]
Further, there may be a plurality of routes that reach the same destination. In such a case, this information is stored on the routing table in order to select a low-cost route.
[0005]
By the way, between routers used in an IP (Internet Protocol) network, RSVP (Resource Reservation Protocol) exists as a (signaling) protocol for reservation management of a band. In RSVP, the flow of data in a session established between hosts is called a flow. Each session is handled as a flow having information on a transmission destination address and a port number. The RSVP function may be operated to reserve a necessary band on the network. In such a case, the routing table is referred to or searched (hereinafter simply referred to as search). When a bandwidth (resource) necessary for communication is secured on the selected route, this bandwidth is reserved and an RSVP message indicating that the reservation has been made is transmitted. An error (Reserve Error) is notified when the bandwidth selected for communication is insufficient on the route selected in the search of the routing table.
[0006]
[Problems to be solved by the invention]
By the way, in such a conventional communication path selection system, a new communication path is secured when a shortage of bandwidth occurs and an error is notified to a communication path once selected by searching a routing table. There was a problem that I could not. Even if another route with a higher cost than the selected route exists in the routing table, as long as the routing table with the same contents is used for the search, the route with the insufficient bandwidth will again be used because the cost is low. It is because it will be adopted.
[0007]
That is, conventionally, the problem is not solved unless the route information is deleted from the routing table. When a certain reason such as a failure occurs in the corresponding communication path, the contents of the routing table are amended, so that information on the communication path can be deleted. Therefore, in this case, a communication path with higher cost can be selected as a communication path with a lower priority, but in other cases, another communication path cannot be selected.
[0008]
A second problem in the conventional communication path selection system is that a new channel that replaces the communication path set before that can be reserved even when the reservation of the bandwidth is impossible in the link immediately below the link under its own device. The communication path cannot be set. This is because the same communication path is selected again as described above. This is because bandwidth reservation by RSVP is performed by link-by-link, that is, bandwidth reservation is performed in units of links, so that the bandwidth reservation is made impossible again after that. As a result, end-to-end (end to end) traffic cannot maintain the quality of service provided by the network as the requested QoS (Quality of Service).
[0009]
A third problem in the conventional communication path selection system is that, as described above, when the reservation of the bandwidth is impossible in the link immediately below the link under its own device, the bandwidth reservation processing results in an error. Since the previous link can reserve the bandwidth, the device reserves the bandwidth by referring to the routing table. As a result, the RSVP message is transmitted to the selected route after the bandwidth reservation. As described above, bandwidth reservation by RSVP is performed on a link-by-link basis. Therefore, if the route selected by searching the routing table can be reserved, the RSVP message is always transmitted to this route. . As a result, a path in which an error has occurred is always selected.
[0010]
Therefore, an object of the present invention is to provide a communication channel that can ensure a new communication channel more reliably when a bandwidth shortage occurs in a communication channel that has once reserved a bandwidth and error notification is performed. It is to provide a road selection system.
[0011]
[Means for Solving the Problems]
According to the first aspect of the present invention, (a) at least the communication path can be obtained by appropriately reflecting the path information stored in the routing table and arranged corresponding to the communication path switching connection points between the communication paths constituting the network. A readable / writable bandwidth reservation channel information storage table in which priority for selection and information indicating availability of bandwidth reservation are stored in association with each communication channel connected to the communication channel switching connection point. ) When reserving a bandwidth for communication between terminals, a communication path switching connection point located between them is selected one by one, and a communication path to the next communication path switching connection point or terminal is reserved for bandwidth reservation. A bandwidth reservation unit that searches and selects the communication path information storage table and reserves a bandwidth necessary for communication with the selected communication path, and (c) communication cannot be performed with the bandwidth reserved by the bandwidth reservation means. Reservation impossible occurrence table update means for rewriting information indicating whether or not bandwidth reservation is possible in the bandwidth reservation communication path information storage table of the corresponding one of the communication path switching connection points when a situation occurs. (D) A communication path switching connection point for selecting an alternative communication path when a communication path that has been determined not to be reserved by the table update means when a reservation is not possible occurs in the communication path reserved by the bandwidth reservation means. Search target exclusion means for excluding communication paths that cannot be reserved for bandwidth from the search target of the bandwidth reservation communication path information storage table arranged in correspondence with (iii) the rest excluded by this search target exclusion means A communication channel reselecting means for searching a communication channel information storage table for bandwidth reservation for the communication channel of, and selecting a communication channel that replaces the communication channel that cannot be reserved for bandwidth; When there is no remaining communication path as a search target excluded by the search target exclusion means, dynamic routing information is acquired as information temporally newer than the bandwidth reservation communication path information storage table, The communication path selection system is provided with dynamic routing information acquisition means to be searched.
[0012]
That is, according to the first aspect of the present invention, when communication is performed between terminals, communication path switching connection points located between them are selected one by one, and the next communication path switching connection point or communication path to the terminal is read / written. This is a communication path selection system that searches and selects a free bandwidth reservation channel information storage table and reserves a bandwidth required for communication for the selected communication path. When a situation in which communication is impossible occurs, the information indicating whether or not bandwidth reservation is possible in the bandwidth reservation channel information storage table related to the corresponding communication channel among the communication channel switching connection points is rewritten to a status where bandwidth reservation is not possible. Yes. The occurrence of such a situation includes, for example, a case where a failure occurs in one link ahead, or a situation where the link itself is normal but resources are insufficient and bandwidth reservation cannot be performed. Can do. Other channel information may be written in the bandwidth reservation channel information storage table. Such information includes information such as a network address, a subnet mask, a next hop address, and a route priority.
[0013]
The search object exclusion means excludes the communication path that has been determined to be unreservable from the search target of the bandwidth reservation communication path information storage table, and the communication path reselection means excludes the remaining communication paths excluded by the search object exclusion means. Since the communication path information storage table for bandwidth reservation is searched as a target and a communication path is selected in place of the communication path that cannot be reserved, other communication paths can be selected using the bandwidth reservation path information storage table. It becomes possible. In this case, there may be a case where there is no communication path as the remaining search target excluded by the search target exclusion means. In such a case, the dynamic routing information acquisition means performs the bandwidth reservation communication path information storage table. The dynamic routing information, which is newer information than the time, is acquired and set as a communication path search target. Therefore, the possibility of securing a communication path can be increased. In addition, since the contents of the bandwidth reservation channel information storage table are searched preferentially, the processing is quick.
[0014]
In the invention according to claim 2, in the communication path selection system according to claim 1, the communication path with the highest priority is selected when there are a plurality of remaining communication paths as search targets excluded by the search target exclusion unit. It is characterized by comprising priority search means.
[0015]
That is, in the invention described in claim 2, since the remaining search target excluded by the search target exclusion unit is not simply selected, the communication path with the highest priority is selected, and therefore the most appropriate communication path is selected. You can choose.
[0016]
According to a third aspect of the present invention, in the communication path selection system according to the first aspect, when a communication path that has been made incapable of bandwidth reservation by the reservation impossible occurrence table updating means occurs in the communication path reserved by the bandwidth reservation means. Further, the present invention is characterized by comprising a bandwidth reservation canceling means for canceling the reservation of the bandwidth of the communication channel.
[0017]
That is, in the invention described in claim 3, when the communication channel reserved by the bandwidth reservation means becomes unusable, the reservation of the bandwidth of the communication channel is canceled to effectively use the bandwidth.
[0018]
According to a fourth aspect of the present invention, in the communication path selection system according to the first aspect, when a communication path that has been made unreservable by the table reservation means when a reservation impossible occurrence table update means occurs in a communication path reserved by the bandwidth reservation means. And an error information transmitting means for transmitting error information as information relating to a communication path in which bandwidth reservation is not possible from a communication path switching connection point connected to the communication path to a communication path other than the communication path. Yes.
[0019]
That is, in the invention described in claim 4, in order to enable the reservation again when a communication path that has been made incapable of bandwidth reservation by the reservation impossible occurrence table updating means occurs in the communication path reserved by the bandwidth reservation means, Error information is transmitted as information related to a communication path that has become unavailable for bandwidth reservation to a communication path other than the communication path.
[0020]
According to a fifth aspect of the present invention, the communication path selection system according to the fourth aspect further comprises a bandwidth reservation resetting unit that performs bandwidth reservation again on the network based on the error information transmitted by the error information transmitting unit. It is a feature.
[0021]
That is, in the invention described in claim 5, when the error information is transmitted by the error information transmitting means, the bandwidth reservation resetting means secures the communication path by reserving the bandwidth of the network again.
[0022]
According to a sixth aspect of the present invention, the communication path selection system according to the fourth aspect further comprises an error occurrence communication path storage means for storing an error-generated communication path connected to the next communication path switching connection point. It is characterized by that.
[0023]
That is, in the invention described in claim 6, by storing the communication path in which an error has occurred connected to the next communication path switching connection point, it is possible to avoid a bandwidth reservation error and Search time is shortened.
[0024]
DETAILED DESCRIPTION OF THE INVENTION
[0025]
【Example】
Hereinafter, the present invention will be described in detail with reference to examples.
[0026]
FIG. 1 shows an outline of a communication path selection system in an embodiment of the present invention. The first terminal 101 and the second terminal 102 scheduled to communicate in this system are connected to the corresponding first or second RSVP host models 103 and 104 and lines 105 and 106, respectively. In this embodiment, the first to fourth RSVP router models 111 to 114 are arranged between the first and second RSVP host models 103 and 104. Specifically, a line 115 is provided between the first RSVP host model 103 and the first RSVP router model 111, and a line 116 is provided between the first RSVP router model 111 and the second RSVP router model 112. A line 117 is provided between the first RSVP router model 111 and the third RSVP router model 113, and a line 118 is provided between the third RSVP router model 113 and the fourth RSVP router model 114. A line 119 is provided between the RSVP router model 112 and the fourth RSVP router model 114, a line 120 is provided between the first RSVP router model 111 and the fourth RSVP router model 114, and a fourth RSVP router model 114. And the second RSVP host model 104 are connected with lines 121, respectively.
[0027]
The first RSVP host model 103 is arranged between a CPU (central processing unit) 131, a database 132 storing an RSVP static route information registration table (bandwidth reservation channel information storage table) to be described later, and a database 132 therebetween. A switch 133 is provided for selecting desired data. In addition to the CPU 131, the first RSVP host model 103, in addition to the CPU 131, stores data storage means such as a magnetic disk and an optical disk for storing the control program, and various processing data when the CPU 131 executes the control program. Naturally, a general circuit component such as a RAM (Random Access Memory) for temporary storage is provided. The data storage unit may also be used as a storage unit for storing the database 132.
[0028]
FIG. 2 shows an outline of the RSVP static route information registration table prepared in the first RSVP host model. As described above, the RSVP static route information registration table 141 is stored in the database 132 shown in FIG. 1. From the first registration table 142 and the second registration table 143 that defines the detailed information of the communication path. It is configured.
[0029]
The first registration table 142 includes a destination network address 144, a subnet mask 145, and first to Nth communication path detailed information 146.₁~ 146_NAnd the first to Nth pointers P₁~ P_NThe correspondence table is registered. Registered in the second registration table 143 are “Next Hop” 147 indicating the next relay destination router, route priority 148 indicating the priority (priority) for each route or communication path, and flow NG flag 149. . Here, the flow NG flag 149 is a flag indicating whether or not communication path search processing is disabled (NG). This flag initially indicates “off”, that is, a state where the search process is possible. However, when some error occurs and the communication path is not targeted for the search, it is “on”, that is, the search process is disabled. The status is changed to indicate that it is possible. An area in which the flow NG flag 149 is registered is referred to as a “flow NG” information area in this specification.
[0030]
As described above, the circuit configuration of the first RSVP host model 103 has been described with reference to FIGS. 1 and 2, but the circuit configuration of the second RSVP host model 104 and the first to fourth RSVP router models 111 to 114 is also basic. This is the same as this. Therefore, description of the circuit configuration of the second RSVP host model 104 and the first to fourth RSVP router models 111 to 114 is omitted.
[0031]
By using the routing functions of the first to fourth RSVP router models 111 to 114 and the RSVP static route information registration table shown in FIG. 1, each existing between the first and second RSVP host models 103 and 104. A connection mode for the lines 115 to 121 is determined, and a bandwidth reservation process is performed for the communication path between the first terminal 101 and the second terminal 102. Next, how the bandwidth of the communication channel is reserved will be described. Here, the description will focus on the first RSVP router model 111 connected to the first RSVP host model 103.
[0032]
3 and 4 show how the RSVP router model is controlled. When the CPU 131 in the first RSVP router model 111 connected to the first RSVP host model 103 starts up, a combination of a network address, a subnet mask, a neckst hop address, and a route priority is combined with the RSVP static route information in the database 132. Registration is made in the registration table 141 (step S161 in FIG. 3). Next, the CPU 131 performs initial setting of the “flow NG” information area in the RSVP static route information registration table 141 (step S162). The “flow NG” information area is provided in order to avoid the conventional problem that the RSVP flow cannot be relieved when a bandwidth reservation error occurs. The “flow NG” information area is cleared at a fixed period, and at the same time the communication path is searched, the search time for the communication path is reduced for each piece of registered information.
[0033]
When the initial setting shown in step S162 is completed, the CPU 131 of the first RSVP router model waits for reception of an RSVP message (step S163). When an event for bandwidth reservation occurs by RSVP between the first terminal 101 and the second terminal 102, the CPU 131 detects reception of an RSVP message (Y). Here, the occurrence of an event targeted for bandwidth reservation is, for example, a voice call when voice communication is started in addition to communication currently performed between the first terminal 101 and the second terminal 102. This is the case. This event includes an exchange of error messages when an error (NG) occurs in the RSVP flow.
[0034]
When detecting reception of the RSVP message (Y), the CPU 131 determines whether the received message is an error message indicating the occurrence of an error or a normal message as other message (step S164). If it is a normal message (Y), it is determined whether this message is a message for a new session or a message for an existing session (step S165).
[0035]
If it is determined that the message is a new session message (Y), the RSVP static route information is read out from the RSVP static route information registration table 141 in the database 132, and the communication path of the RSVP message transmission destination is searched (step) S166). If there is an RSVP static route (step S167: Y in FIG. 4), it is determined whether or not there are multiple routes (step S168). When there are a plurality of RSVP static routes (Y), the route priority (priority) of each route, that is, the communication path is compared from the RSVP static route information registration table 141, and the communication path with the highest priority is selected. A candidate is extracted (step S169). If there is only one route, the candidate calculation process in step S169 cannot be performed. When the communication path is determined in this way, the operation state and the bandwidth reservation state in the communication path are confirmed (step S170).
[0036]
On the other hand, if there is no message transmission destination communication path on the RSVP static route information registration table 141 in step S167 of FIG. 4, or there is a communication path that satisfies the conditions for the operation state or bandwidth reservation state in step S170. If not (N), the process returns to step 167 again to check whether another RSVP static route exists. If it exists, the processing after the previous step S168 is performed. Even if the above processing is performed, the bandwidth is not secured, and finally the RSVP static route does not exist (step S167: N), the dynamic routing function is activated to activate this function. A search process is performed on the (dynamic) routing table created by starting (step S171). Here, the routing table is arranged on the aforementioned RAM. The dynamic routing function is disclosed in, for example, JP-A-7-162416 and JP-A-10-285207, and the contents of the routing table are updated when the network topology is changed. Yes.
[0037]
In the search process on the routing table, the shortest route to the destination is written to the routing table by starting the dynamic routing function. When a communication path satisfying each condition exists by searching the routing table, the operation status and the bandwidth reservation status are confirmed for the communication path. If there is a communication path that matches the conditions, the interface of the message destination derived from the IP (Internet Protocol) address of the next relay destination (Next Hop) using the corresponding line is extracted and extracted. A message transmission destination candidate communication path is set as a formal transmission destination communication path, and a message is transmitted to the communication path. When sending a message, a refresh timer (not shown) is also set. Here, the refresh timer is realized by software or hardware using a clock signal or the like used in the first RSVP router model 111, and transmits a message to that effect in order to maintain the reservation state. Is a timer used to periodically repeat In RSVP, communication is performed after a bandwidth is reserved, but a message called a refresh message needs to be repeatedly transmitted in order to secure the reserved bandwidth continuously in time.
[0038]
On the other hand, if it is determined that the conditions match as a result of checking the operation state and the bandwidth reservation state in the corresponding communication path in step S170 (Y), the process proceeds to step S172 and the message Extract the destination interface. Then, the extracted message transmission destination candidate communication path is set as a formal transmission destination communication path, and a message is transmitted to the communication path (step S173). In this case, there may be a plurality of communication paths that match the conditions. In such a case, select one communication path from the conditions such as the one with the highest priority, and select this as the official destination. Process as a communication path. When sending a message, a refresh timer (not shown) is also set.
[0039]
If it is determined in step S164 that the message is an error message (N), the communication path in which an error has occurred in the RSVP flow is stored in the “flow NG” information area (step S174). Specifically, the flow NG flag 149 of the corresponding communication path is changed from “OFF” to “ON”. Then, the process proceeds to step S166. If it is determined that the message received in step S165 is not a new message but an existing session message (N), the process proceeds to step S173, and the message is transmitted to the existing session. If it is neither an error message nor a new message (step S165: N), the refresh timer described above is cleared (step S178).
[0040]
FIG. 5 shows an example of the bandwidth reservation state of each communication path. FIG. 5 shows the same network configuration as that shown in FIG. The line 120 that directly connects the first RSVP router model 111 and the fourth RSVP router model 114 will be referred to as a first communication path. Also, the line 117 connecting the first RSVP router model 111 and the third RSVP router model 113 is called a second communication path, and the line 116 connecting the first RSVP router model 111 and the second RSVP router model 112 is called It will be referred to as a third communication path. Also, the line 118 connecting the third RSVP router model 113 and the fourth RSVP router model 114 is called a fourth communication path, and the line 119 connecting the second RSVP router model 112 and the fourth RSVP router model 114 is called It will be called a fifth communication path. The communication channel selection priority registered in the RSVP static route information registration table 141 shown in FIG. 2 is the highest in the first communication channel 120, the second communication channel 117 is the next, and the third communication channel 116. Is assumed to be next.
[0041]
It is assumed that the bandwidth reservation management state of each communication channel is as follows. The first communication path 120 has no vacant bandwidth, and bandwidth reservation is impossible (F). Further, the second communication path 117 has a vacant band, and the band can be reserved (empty). The third communication path 116 also has a vacant band, and the band can be reserved (empty). The fourth communication path 118 and the fifth communication path 119 also have a vacant band, and both can reserve a band (empty).
[0042]
In such a registration situation, based on the data sent from the first RSVP host model 103 connected to the first terminal 101, the CPU 131 in the first RSVP router model 111 receives the RSVP message. It is assumed that it has been detected (step S163: Y in FIG. 3). The CPU 131 reads out the RSVP static route information and searches for a communication path as a transmission destination of the RSVP message (step S166). In this case, there are three routes, ie, the first communication channel 120, the second communication channel 117, and the third communication channel 116 (step S168: Y). Of these, the first communication path 120 has the highest communication path selection priority.
[0043]
However, according to the bandwidth reservation management state of each communication path described above, the first communication path 120 has no bandwidth necessary for reservation (N). Therefore, the process returns to step S167 again, and the second communication path 117 and the third communication path 116 are extracted. Since there are still a plurality (two in this example) of the extracted communication paths (routes) (step S168: Y), the CPU 131 searches for the priority between them (step S169). As a result, the second communication path 117 is selected. The second communication path 117 has a vacant band, and band reservation is possible (empty). Therefore, the RSVP message is transmitted using this as the official transmission destination communication path (step S173). When this message is transmitted, a refresh timer is also set. The above is the case where a communication path for transmitting the RSVP message is found only by the RSVP static route information.
[0044]
When the second communication channel 117 is reserved in this way, the third RSVP router model 113 as the receiving end of the communication channel similarly reserves the bandwidth of each communication channel. In the case of this example, the bandwidth of the fourth communication path 118 is reservable (empty), so this is reserved. In FIG. 5, from the first RSVP host model 103 to the first RSVP router model 111 is represented as (1) communication channel reservation by a normal message. From the first RSVP router model 111 to the third RSVP router model 113, (2) the second communication path 117 is reserved, and from the third RSVP router model 113 to the fourth RSVP router model 114 (3) A reservation for the fourth communication path 118 is made. With these reservations, all communication paths between the first terminal 101 and the second terminal 102 are reserved.
[0045]
FIG. 6 shows an example in which the communication path cannot be set only by the RSVP static route information, unlike the above. In the latter example, the communication path selection priority of the RSVP static route information is the highest in the second communication path 117, and the third communication path 116 has the next highest priority. In this example, the bandwidth reservation management state of each communication channel is as follows. The first communication path 120 has a vacant band, and the band can be reserved (empty). Further, the second communication path 117 has no vacant bandwidth, and bandwidth reservation is impossible (F). The third communication path 116 is also free of bandwidth, and bandwidth reservation is impossible (F). The fourth communication path 118 and the fifth communication path 119 have a vacant band, and both can reserve a band (empty).
[0046]
Assume that the CPU 131 in the first RSVP router model 111 detects reception of an RSVP message sent from the first RSVP host model 103 in such a bandwidth reservation management state (step S163 in FIG. 3). Y). The CPU 131 reads the RSVP static route information from the RSVP static route information registration table 141, and searches for the communication path of the RSVP message transmission destination (step S166). In the case of this example, since the priority of the second communication path 117 is the highest, the second communication path 117 is extracted first. However, since it can be seen from the bandwidth reservation management state that the second communication channel 117 does not have a bandwidth necessary for reservation (no space available) (step S170: N), the communication channel search is performed again (step S167).
[0047]
As a result, the third communication path 116 is searched, but this communication path also has no bandwidth necessary for reservation (no vacancy) (step S170: N). Therefore, the communication path is further searched (step S167), but only the above two communication paths are listed on the RSVP static route information table together with the information indicating the priority. Therefore, there is no message on the table that satisfies the condition as the communication path of the message transmission destination (N). Therefore, the process proceeds to step S171 and the dynamic routing function is activated. When this function is activated, a routing table is created on the aforementioned RAM, and a search using this is performed. In this case, since the routing table having the contents as described above is obtained, the first communication path 120 is extracted as a candidate.
[0048]
The CPU 131 in the first RSVP router model 111 confirms the operation state and the bandwidth reservation state in the first communication path 120 of the extracted message transmission destination candidate. When the operation state is “UP” and bandwidth reservation is possible, the first communication path 120 becomes an official transmission destination communication path, and an RSVP message is transmitted. When sending a message, a refresh timer is also set.
[0049]
In the embodiment described above, when the dynamic routing function is activated, the RSVP static route information registration table 141 can reflect changes such as the addition of a communication path and the occurrence of a free space. In addition, since the RSVP static route information table 141 is first searched in this embodiment, the dynamic routing function is not frequently activated, and an excessive burden is not imposed on the entire system.
[0050]
Variations of the invention
[0051]
In the communication path selection system of this modification, for the sake of simplicity, the selection will be described by taking a communication path having the same configuration as that of the embodiment shown in FIG. 1 as an example. The configuration of the first and second RSVP host models 103 and 104 and the first to fourth RSVP router models 111 to 114 is partially different from that of the embodiment in the control program executed by each CPU 131. It is basically the same except for the point. Therefore, these will be described with the same reference numerals. In this modified example, when a resource shortage occurs in the midway communication path, the already reserved band is canceled and a new band is reserved.
[0052]
FIG. 7 shows the state of the communication path when resource shortage occurs later in a part of the communication path. Assume that the bandwidth reservation management state of each communication channel is initially as shown in FIG. Also, the communication path selection priority registered in the RSVP static route information registration table 141 is the highest in the first communication path 120, the second in the second communication path 117, and the next in the third communication path 116. It is assumed that it is high.
[0053]
FIG. 8 corresponds to FIG. 4 of the previous embodiment, and represents the latter half of the control flow of the RSVP router model. Since the first half of the control flow of the RSVP router model is the same as FIG. 3 of the previous embodiment, the illustration thereof is omitted. In FIG. 8, the same parts as those in FIG. 4 are denoted by the same step numbers, and description thereof will be omitted as appropriate. As described with reference to FIG. 5 of the previous embodiment, the first RSVP router model 111 has the second communication path 117 having the next highest priority because the first communication path 120 cannot reserve a bandwidth (F). An RSVP message is transmitted as an official transmission destination communication path (step S173).
[0054]
After the RSVP message is transmitted from the first RSVP router model 111 to the second communication path 117 in this way (normal message transmission), resource shortage (bandwidth reservation NG in the fourth communication path 118 is performed. ) Occurs. The bandwidth reservation management state of each communication path at this time is as follows. The first communication path 120 has no available bandwidth and cannot reserve a bandwidth (F). Further, the second communication path 117 has a vacant band, and the band can be reserved (empty). The third communication path 116 also has a vacant band, and the band can be reserved (empty). The fourth communication path 118 has no space in the area, and bandwidth reservation is impossible (F). The fifth communication path 119 has a vacant band, and the band can be reserved (empty).
[0055]
When resource shortage (band reservation NG) occurs in the fourth communication path 118, an error message is transmitted from the third RSVP router model 113 to the first RSVP router model 111 through the second communication path 117. . When the CPU 131 in the first RSVP router model 111 detects an error message (step S164: N in FIG. 3), the fact that the RSVP flow has become a bandwidth reservation NG in the second communication path 117 is displayed in the “flow NG” information area. Remember. For example, the error display flag of the corresponding communication path is set to “ON” (ON). As a result, the band reserved in advance for the second communication path 117 is released.
[0056]
As a result, the first RSVP router model 111 has to search for the communication path toward the fourth RSVP router model 114 again. Therefore, the CPU 131 reads out RSVP static route information from the RSVP static route information registration table 141, and searches for a communication path as a transmission destination of the RSVP message (step S166). At this time, the second communication path 117 for which the reserved bandwidth is released is excluded from the search target because the error display flag is “ON”. As a result of such a search, the third communication path 116 is extracted as a candidate. The CPU 131 confirms the operation state and the bandwidth reservation state for the third communication path 116 (step S170). When the operating state is “UP” and band reservation is possible (Y), the RSVP message is transmitted using the extracted third communication path 116 as an official destination communication path. In addition, when this message is transmitted, a refresh timer is also set. FIG. 7 shows that (4) the third communication path 116 is reserved instead of (2) the second communication path 117.
[0057]
By the way, if there is no message destination communication path on the RSVP static route information registration table 141 in step S167 of FIG. 8, or there is a communication path that satisfies the conditions for the operation state or bandwidth reservation state in step S170. If not (N), the process returns to step 167 again to check whether another RSVP static route exists. If it exists, the processing after the previous step S168 is performed. Even if the above-described processing is performed and the bandwidth involved is not secured and the RSVP static route does not exist in the end (step S167: N), the dynamic routing function is activated to activate this function. The search processing is performed on the (dynamic) routing table created by the activation of (step S181).
[0058]
When the dynamic routing function is activated, the shortest route to the destination is written in the routing table. When a communication path satisfying each condition exists by searching the routing table (step S182: Y), the operation state and the bandwidth reservation state are confirmed for the communication path as in step S170 (step S183). . As a result, if there is a communication path that matches the condition (Y), the interface of the transmission destination of the message derived from the IP (Internet Protocol) address of the next relay destination (Next Hop) using the corresponding line is set. Extract (step S172). Then, the extracted message transmission destination candidate communication path is set as a formal transmission destination communication path, and a message is transmitted to the communication path (step S173). In this case, there may be a plurality of communication paths that match the conditions. In such a case, select one communication path from the conditions such as the one with the highest priority, and select this as the official destination. A communication path is used, and a message is transmitted in response to this. When sending a message, a refresh timer (not shown) is also set.
[0059]
If it is determined in step S183 that there is no communication path that matches the condition (N), the process returns to step S181 and the routing table is searched. If it is determined in step S182 that there is no communication path (N), an error message is transmitted (step S184). This error message is sent in the direction opposite to the direction in which the communication path for which the bandwidth reservation is canceled is set. In the example shown in FIG. 7, (2) an error message is transmitted on the second communication path 117 in the opposite direction to the reservation of the second communication path 117.
[0060]
Of course, if there is another communication path that can send an error message without passing through the communication path whose bandwidth reservation has been canceled, the detour such as the first RSVP router model 111 is finally passed through that communication path. An error message may be sent to a configurable device. The device that has received the error message attempts to re-reserve the communication path, but a description thereof will be omitted.
[0061]
On the other hand, if it is determined that the conditions match as a result of checking the operation state and the bandwidth reservation state in the corresponding communication path in step S170 (Y), the process proceeds to step S172 and the message The destination interface is extracted.
[0062]
If it is determined in step S164 that the message is an error message (N), the communication path in which an error has occurred in the RSVP flow is stored in the “flow NG” information area (step S174). Specifically, the flow NG flag 149 of the corresponding communication path is changed from “OFF” to “ON”. Then, the process proceeds to step S166. If it is determined that the message received in step S165 is not a new message but an existing session message (N), the process proceeds to step S173, and the message is transmitted to the existing session.
[0063]
In the modified example described above, since an error message is transmitted, the received RSVP router model or terminal can reserve a band in another communication channel. In addition, when the error message is determined, the communication path in which an error has occurred in the RSVP flow is stored in the “flow NG” information area, so that the RSVP flow in which the bandwidth reservation error has occurred cannot be relieved. In addition, the communication path search time can be shortened.
[0064]
In the embodiment and the modification described above, the dynamic routing function is activated when the target communication path does not exist when the bandwidth reservation communication path information storage table is searched again. Even when a search is impossible because there is no channel reservation information storage table for bandwidth reservation, the dynamic routing function may be activated in the same manner, and the search may be performed using the information acquired thereby. .
[0065]
【The invention's effect】
As described above, according to the first aspect of the present invention, when reserving a band for communication between terminals, a communication path switching connection point located between these terminals is selected one by one and Communication that searches and selects a readable / writable bandwidth reservation channel information storage table for a communication channel to the communication channel switching connection point or terminal, and reserves a bandwidth necessary for communication for the selected communication channel. Information indicating whether communication is possible in the bandwidth reservation channel information storage table for the corresponding channel among the channel switching connection points, such as when a channel with a communication failure appears in the channel selection system Is written in a state in which bandwidth reservation is not possible, and the search is performed by excluding the communication path from the search target. Therefore, if there is another communication path, these can be set as reservation targets. In addition, when there is no communication path as the remaining search target excluded by the search target exclusion means, the dynamic routing information acquisition means acquires the dynamic routing information and determines this as the search target for the communication path. The possibility of securing a communication path can be increased. In addition, since the contents of the bandwidth reservation channel information storage table are searched preferentially, the processing is quick.
[0066]
According to the second aspect of the present invention, since the remaining search object excluded by the search object excluding means is not simply selected, the communication path with the highest priority is selected, so that the most appropriate communication can be performed. A path can be selected.
[0067]
Further, according to the third aspect of the present invention, when the communication channel reserved by the bandwidth reservation means becomes unusable, the reservation of the bandwidth of the communication channel is canceled, so that the bandwidth can be effectively used. .
[0068]
According to the fourth aspect of the present invention, the error information as the information about the communication path for which the bandwidth reservation is disabled is transmitted by the error information transmitting means, so that the reservation is made in the communication path reserved by the bandwidth reservation means. Reservation can be made possible again when a communication path in which bandwidth reservation is disabled by the failure occurrence table updating means occurs.
[0069]
Furthermore, according to the fifth aspect of the present invention, error information is transmitted by the error information transmitting means, so that network bandwidth reservation can be performed quickly.
[0070]
According to the invention described in claim 6, by storing the communication path in which an error has occurred connected to the next communication path switching connection point, it is possible to avoid a bandwidth reservation error and to perform effective communication. The road search time can be shortened.
[Brief description of the drawings]
FIG. 1 is a system main part configuration diagram showing a main part of a communication path selection system in an embodiment of the present invention.
FIG. 2 is a block diagram showing an outline of an RSVP static route information registration table in the first RSVP host model of the present embodiment.
FIG. 3 is a flowchart showing the first half of the state of control of the RSVP router model in this embodiment.
FIG. 4 is a flowchart showing the latter half of the state of control of the RSVP router model in this embodiment.
FIG. 5 is an explanatory diagram showing an example of a bandwidth reservation state of each communication path in the present embodiment.
FIG. 6 is an explanatory diagram showing an example of a bandwidth reservation state of each communication path showing a case where a communication path is selected using a routing table together with RSVP static route information in the present embodiment.
FIG. 7 is an explanatory diagram showing a state of communication channel selection when a resource shortage occurs later in a part of the communication channel in a modification of the present invention.
FIG. 8 corresponds to FIG. 4 of the previous embodiment, and is a flowchart showing the latter half of the control flow of the RSVP router model in a modification of the present invention.
[Explanation of symbols]
101 first terminal
102 second terminal
103 First RSVP host model
104 Second RSVP host model
111 First RSVP router model
112 Second RSVP router model
113 Third RSVP router model
114 Fourth RSVP router model
116 Third communication path (line)
117 Second communication channel (line)
118 Fourth communication channel (line)
119 Fifth communication path (line)
120 First communication path (line)
131 CPU
132 Database
133 Data selection switch

Claims (6)

At least priority for selecting a communication path and availability of bandwidth reservation by appropriately reflecting the path information stored in the routing table that is arranged corresponding to each communication path switching connection point between the communication paths that make up the network And a readable / writable bandwidth reservation channel information storage table in which the information indicating is stored in association with each channel connected to the channel switching connection point, and
When reserving a band for communication between the terminals, the communication path switching connection point located between them is selected one by one, and the communication path to the next communication path switching connection point or terminal is selected as the band. Band reservation means for searching and selecting a reservation channel information storage table and reserving a band necessary for communication with the selected channel,
Information indicating whether or not the bandwidth reservation is possible in the bandwidth reservation channel information storage table of the corresponding one of the communication channel switching connection points when a situation where communication is impossible in the bandwidth reserved by the bandwidth reservation means occurs. Reservation impossible table update means to rewrite to a reservation impossible state,
Corresponding to the communication path switching connection point in order to select a communication path that replaces the communication path that is reserved by the table reservation means when the reservation is not possible occurrence table update means among the communication paths reserved by the bandwidth reservation means. Search target exclusion means for excluding communication paths whose bandwidth reservation is not possible from the search target of the bandwidth reservation communication path information storage table arranged
Communication path reselecting means for searching the bandwidth reservation communication path information storage table for the remaining communication paths excluded by the search target exclusion means and selecting a communication path that replaces the communication path that has been determined not to be bandwidth reserved; ,
When there is no communication path as a remaining search object excluded by the search object exclusion means, dynamic routing information is acquired as information temporally newer than the bandwidth reservation communication path information storage table and communicated. A communication path selection system comprising: dynamic routing information acquisition means to be searched for a path. 2. The communication according to claim 1, further comprising priority search means for selecting a communication path having the highest priority when there are a plurality of communication paths as remaining search objects excluded by the search object exclusion means. Road selection system. A bandwidth reservation canceling unit that cancels the reservation of the bandwidth of the communication channel when a communication channel in which the bandwidth reservation is disabled by the table updater when the reservation is not possible occurs in the communication channel reserved by the bandwidth reservation unit; The communication path selection system according to claim 1. When a communication path for which bandwidth reservation is disabled by the table update means when a reservation is not possible occurs in the communication path reserved by the bandwidth reservation means, other than the communication path from the communication path switching connection point connected to the communication path 2. The communication path selection system according to claim 1, further comprising error information transmission means for transmitting error information as information relating to a communication path that has become unavailable for bandwidth reservation. 5. The communication path selection system according to claim 4, further comprising a bandwidth reservation resetting unit that performs network bandwidth reservation again based on the error information transmitted by the error information transmission unit. 5. The communication path selection system according to claim 4, further comprising an error occurrence communication path storage means for storing a communication path in which an error has occurred, connected to the next communication path switching connection point.

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