KR100602333B1 - OSPFOpen Shortest Path First Route Server - Google Patents

Abstract

1. TECHNICAL FIELD OF THE INVENTION

The present invention relates to a route server using the Open Shortest Path Protocol (OSPF), which is a routing protocol of the Internet Protocol (IP).

2. Technical problem to be solved by the invention

The present invention efficiently manages a route table without directly manipulating each open shortest path protocol router in an autonomous system (AS) in an Internet protocol (IP) network using open shortest path protocol (OSPF) as a routing protocol. To provide an Open Shortest Path Protocol (OSPF) route server.

3. Summary of the Solution of the Invention

An open shortest path protocol route server comprising: link state storage means for storing state information for each router on a network; User interfacing means for controlling necessary for management of each router using the state information; Open shortest path setting means for connecting with said link state storage means and said user interfacing means and for establishing a communication path with various devices of said network; And an interface driving means for connecting with various devices of the network via a path set by the open shortest path setting means and transmitting a control command of the user interfacing means.

4. Important uses of the invention

The invention is used in open systems and the like.

Open Shortest Path Protocol (OSPF), Route Server, Autonomous System (AS), Router, Link State Database

Description

Open Shortest Path First (OSPF) Route Server}             

1 is an exemplary diagram of a routing architecture employing a conventional Open Shortest Path Protocol (OSPF).

2 is an exemplary diagram of a routing architecture employing an Open Shortest Path Protocol (OSPF) route server in accordance with the present invention.

Figure 3 is an embodiment configuration of an open shortest path protocol (OSPF) route server according to the present invention.

The present invention relates to a route server using the Open Shortest Path Protocol (OSPF), which is a routing protocol of the Internet Protocol (IP).

1 is an exemplary diagram of a routing structure employing a conventional Open Shortest Path Protocol (OSPF).

In general, the routing table of each Open Shortest Path Protocol (OSPF) router in a network employing the Open Shortest Path Protocol (OSPF), which is a routing protocol of the Internet Protocol (IP) (hereinafter simply referred to as "IP"). Is created and distributed by the routing algorithm of the Open Shortest Path Protocol (OSPF).

However, if an administrator wants to intervene in creating an Open Shortest Path First Interior Gateway Protocol (OSPF) routing table (hereinafter simply referred to as "OSPF"), the administrator must manipulate the routing process of each router in the OSPF area. As a result, as the number of routers increases, management difficulties occur, and a mistake of an administrator propagates directly to the entire network, thereby directly affecting the performance or function of the network.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and directly manipulates each open shortest path protocol router inside an autonomous system (AS) in an Internet Protocol (IP) network using open shortest path protocol (OSPF) as a routing protocol. Its purpose is to provide an Open Shortest Path Protocol (OSPF) route server for efficiently managing route tables without doing so.

In order to achieve the above object, the present invention provides an open shortest path protocol route server comprising: link state storage means for storing state information for each router on a network; User interfacing means for controlling necessary for management of each router using the state information; Open shortest path setting means for connecting with said link state storage means and said user interfacing means and for establishing a communication path with various devices of said network; And interface driving means for connecting to various devices of the network via a path set by the open shortest path setting means and transmitting a control command of the user interfacing means.

In other words, the present invention adopts an OSPF route server in an IP network using OSPF as a routing protocol, and does not directly operate each OSPF router in an autonomous system (AS). Make route table management easier and more secure.

OSPF, which is widely used as the internal routing protocol of IP networks, is a link state protocol, in which each OSPF router maintains a routing table that calculates the network structure by exchanging link states between routers and calculates the shortest distance routing path.

Due to the nature of the link state protocol, OSPF likewise causes any state change to cause a change in the structure of the network, which in turn causes a change in the routing table entry.

Therefore, when route flapping occurs frequently in which a link is disconnected or connected, this change is frequently reflected in the routing path calculation process of the OSPF router, thereby inducing a new path calculation, which is a load-inducing factor for routers throughout the network.

For this reason, the method of reducing the load of a router and a network is used by changing the value of various timers which an OSPF router has appropriately.

To reflect this change, the administrator must manually change the configuration of all OSPF routers in the network. Network management systems are often used for this configuration.

The main point of the present invention is that if the administrator can directly intervene in the routing path calculation of OSPF through the route server, the frequency of new route calculations resulting from such route flapping can be reduced.

That is, when a route server acts as a designated router (DR) in an OSPF area, other OSPF routers other than the designated router in the area do not participate in link stay and generate route information generated by the designated router. Since it is received from the designated router, the administrator can manipulate the routing table of the route server acting as the designated router and propagate it to the whole network.

Therefore, if the OSPF route server proposed in the present invention is a designated router of area 0 corresponding to the backbone in the OSPF area configuration, as shown in FIG. It is possible to intervene in the creation of routing tables without touching the configuration of each router.

Hereinafter, a preferred embodiment according to the present invention will be described in detail with reference to FIGS. 2 and 3.

2 is an exemplary diagram of a routing structure employing an open shortest path protocol (OSPF) route server according to the present invention, and FIG. 3 is a diagram illustrating an embodiment of an open shortest path protocol (OSPF) route server according to the present invention.

The link state of the OSPF route server, which is a designated router belonging to area 0, exists in the link-state database (LSDB) (hereinafter simply referred to as "LSDB") stored in the router. Appropriate operations can be applied to the link state element of the link state, and for example, an intervention such as delaying the change of the link state that is the element causing the route flapping can be performed.

In addition to these operations, changes in the network structure, such as the establishment of a link, may be directly reflected by the administrator in a database, causing the calculation of routes throughout the network immediately when needed.

In addition, since the administrator can directly intervene in the database, it is possible to implement a policy-based routing function which is pointed out as a disadvantage of the existing OSPF routing protocol.

To increase the availability of OSPF route servers, if you configure a second route server as a backup designated router in the backbone area by using the features of the backup designated router defined in the OSPF routing protocol, the network can be down even if the route server acting as the first designated router goes down. Operation without disruption to the operation is possible.

To implement the OSPF route server, the implementation of the OSPF routing protocol is required, which can be implemented using a host computer with only one network interface (interface).

The router's link state database (LSDB) exists in the file system and memory, and the interface driver (IFD) for interfacing with an external device and a user interface 304 for administrator intervention in the database. 303 and an open shortest path protocol engine 302 are introduced to complete the implementation of the OSPF route server.

The present invention described above is capable of various substitutions, modifications, and changes without departing from the spirit of the present invention for those skilled in the art to which the present invention pertains, and the above-described embodiments and accompanying It is not limited to the drawing.

As described above, when the OSPF is adopted as an internal routing protocol in an IP network, not only can the route table be easily managed, but also the artificially intervene in the routing table generated by the OSPF to improve routing efficiency. There is an excellent effect to manipulate the table.

Claims (2)

In the open shortest path protocol route server, Link state storage means for storing state information for each router on the network; User interfacing means for controlling necessary for management of each router using the state information; Open shortest path setting means for connecting with said link state storage means and said user interfacing means and for establishing a communication path with various devices of said network; And Interface driving means for connecting to various devices of the network via a path set by the open shortest path setting means and transferring a control command of the user interfacing means; Route server comprising a. The method of claim 1, The route server is used in an autonomous system (AS).

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