CN105119836A - Dynamic operation method of routing protocol component based on state pool - Google Patents

Abstract

The invention discloses a dynamic operation method of a routing protocol component based on a state pool. The vulnerability problem of routing protocols and routing information on a control plane in the prior art is overcome. The routing protocol component comprises a routing protocol component group, a dynamic routing protocol operation engine and a routing protocol operation state pool; and the dynamic routing protocol operation engine is a bridge between the routing protocol component group and the routing protocol operation state pool and composed of a scheduling engine, a pool inlet engine and a pool outlet engine. The dynamic operation method disclosed by the invention has the advantages that: routing protocols are componentized at first; component scheduling is carried out through a dynamic operation engine based on the state pool; a component jump decision is made; loading and unloading of the component are scheduled; real-time seamless jump between components is completed; and thus, random recombination of the routing protocol component and dynamic migration of tasks between functional equivalence components are realized.

Description

A kind of routing protocol component dynamic operation method based on state pond

Technical field

This invention relates to the operation method of computer network field, particularly relates to a kind of routing protocol component dynamic operation method based on state pond.

Background technology

Router is as the important component part of network infrastructure, and the security situation of himself is increasingly serious.And the control plane of router is as the brain of router, be responsible for running Routing Protocol and the mutual routing iinformation of neighbor router, perform routing algorithm calculating route, its security situation also allows of no optimist, and the major security threat that control plane faces comprises to be attacked to destroy Routing Protocol for the purpose of Routing Protocol and to inject the route spoofing for the purpose of false route.Conventional router tackles above-mentioned attack by the security mechanism of repairing Routing Protocol leak, increase adds, fundamentally do not change the static characteristic of router control plane, the fragility problem of Routing Protocol and routing iinformation on control plane cannot be solved completely.

Summary of the invention

Instant invention overcomes in prior art, the fragility problem of Routing Protocol and routing iinformation on control plane, provide a kind of operational effect preferably based on the routing protocol component dynamic operation method in state pond.

Technical solution of the present invention is, there is provided a kind of routing protocol component dynamic operation method based on state pond with following steps: containing routing protocol component group, Routing Protocol dynamic operation engine and Routing Protocol running status pond, Routing Protocol dynamic operation engine is the bridge between routing protocol component group and Routing Protocol running status pond, by scheduling engine, enters pond engine and go out pond engine to form.

Described routing protocol component group is made up of Routing Protocol assembly, and each Routing Protocol assembly is made up of several routing protocol components; Routing Protocol assembly is towards specific Routing Protocol, and one group of routing protocol component is combined into Routing Protocol assembly, realizes ad hoc routing protocol function.Described Routing Protocol assembly is RIP protocol component, bgp protocol assembly and ospf protocol assembly.

Described routing protocol component is towards specific function, it is the module implementing the process of ad hoc routing protocol specific function, as the router-level topology of RIP, routing protocol component comprises the open restructural component of Message Processing component, protocol status mechanism member, router-level topology component three aspects, of equal value with layer member function, component dynamic random under the scheduling of Routing Protocol mimicry runtime engine of three aspects combines and the function of cooperative achievement Routing Protocol.

Described Routing Protocol running status pond is RIP running status pond, BGP running status pond and OSPF running status pond; It safeguards that each Routing Protocol runs context, comprises Message Processing component, protocol status mechanism member, the special operation context of router-level topology component and component and shares context.

Described special operation context comprises the information such as component running state information, component event information, component input and output routing protocol data bag and Routing Protocol metadata; Component shares context and comprises the agreement overall operation relevant informations such as protocol running state, protocol link state, agreement timer.

Described scheduling engine monitoring runs the state of component, formulates component saltus step decision-making and selects reconstruct component, to entering pond engine and go out pond engine inject into pond event respectively and go out pond event; Enter pond engine and enter pond event-driven by component, component is also run context and enters pond by unloading component; Go out pond engine by component saltus step event-driven, component relevant operation context is gone out pond and loaded members.

The workflow of described Routing Protocol dynamic operation engine is: step 1: scheduling engine, when finding that the component random jump time expires or monitors component operation exception, enters pond event to entering pond engine notification member; Step 2: component enter pond event trigger into pond engine perform component enter pond flow process, by operation context special and shared for component write correspondence protocol status pond in, be then fed back into pond result to scheduling engine; Step 3: scheduling engine is receiving execution component gravity treatment after into pond feedback, selects same layer component of equal value as replacement component, and goes out pond event to going out pond engine notification member; Step 4: component goes out pond event to be triggered out pond engine and perform component and go out pond flow process, reads the operation context that component is special and shared, then feed back pond result to scheduling engine from the protocol status pond of correspondence; Step 5: scheduling engine receive out pond feedback after, to entering pond engine notification member unloading event, to going out pond engine notification member load events; Step 6: component unloading event triggers into pond engine unloading component; Step 7: component load events triggers out pond engine loaded members, runs context based on the component read and loads replacement component, state of resuming operation.

Compared with prior art, the routing protocol component dynamic operation method that the present invention is based on state pond has the following advantages: first by routing protocol component, and then carry out component scheduling by the dynamic operation engine based on state pond, formulate component saltus step decision-making, scheduling component compression and decompression, complete real-time seamless saltus step between component, thus realizing between the random restructuring of routing protocol component and function equivalence component of task is dynamically migrated.

Accompanying drawing explanation

Fig. 1 is the schematic diagram of the routing protocol component dynamic operation method that the present invention is based on state pond;

Fig. 2 is route protocol dynamic runtime engine schematic flow sheet in the routing protocol component dynamic operation method that the present invention is based on state pond.

Embodiment

Below in conjunction with the drawings and specific embodiments, the routing protocol component dynamic operation method that the present invention is based on state pond is described further:

The inventive method is as shown in drawings: containing routing protocol component group, Routing Protocol dynamic operation engine and Routing Protocol running status pond, Routing Protocol dynamic operation engine is the bridge between routing protocol component group and Routing Protocol running status pond, by scheduling engine, enters pond engine and go out pond engine to form.

Described routing protocol component group is made up of Routing Protocol assembly, and each Routing Protocol assembly is made up of several routing protocol components; Routing Protocol assembly is towards specific Routing Protocol, and one group of routing protocol component is combined into Routing Protocol assembly, realizes ad hoc routing protocol function.Described Routing Protocol assembly is RIP protocol component, bgp protocol assembly and ospf protocol assembly.

Described routing protocol component is towards specific function, it is the module implementing the process of ad hoc routing protocol specific function, as the router-level topology of RIP, routing protocol component comprises the open restructural component of Message Processing component, protocol status mechanism member, router-level topology component three aspects, of equal value with layer member function, component dynamic random under the scheduling of Routing Protocol mimicry runtime engine of three aspects combines and the function of cooperative achievement Routing Protocol.

Described Routing Protocol running status pond is RIP running status pond, BGP running status pond and OSPF running status pond; It safeguards that each Routing Protocol runs context, comprises Message Processing component, protocol status mechanism member, the special operation context of router-level topology component and component and shares context.

Described special operation context comprises the information such as component running state information, component event information, component input and output routing protocol data bag and Routing Protocol metadata; Component shares context and comprises the agreement overall operation relevant informations such as protocol running state, protocol link state, agreement timer.

Described scheduling engine monitoring runs the state of component, formulates component saltus step decision-making and selects reconstruct component, to entering pond engine and go out pond engine inject into pond event respectively and go out pond event; Enter pond engine and enter pond event-driven by component, component is also run context and enters pond by unloading component; Go out pond engine by component saltus step event-driven, component relevant operation context is gone out pond and loaded members.

The workflow of described Routing Protocol dynamic operation engine is: step 1: scheduling engine, when finding that the component random jump time expires or monitors component operation exception, enters pond event to entering pond engine notification member; Step 2: component enter pond event trigger into pond engine perform component enter pond flow process, by operation context special and shared for component write correspondence protocol status pond in, be then fed back into pond result to scheduling engine; Step 3: scheduling engine is receiving execution component gravity treatment after into pond feedback, selects same layer component of equal value as replacement component, and goes out pond event to going out pond engine notification member; Step 4: component goes out pond event to be triggered out pond engine and perform component and go out pond flow process, reads the operation context that component is special and shared, then feed back pond result to scheduling engine from the protocol status pond of correspondence; Step 5: scheduling engine receive out pond feedback after, to entering pond engine notification member unloading event, to going out pond engine notification member load events; Step 6: component unloading event triggers into pond engine unloading component; Step 7: component load events triggers out pond engine loaded members, runs context based on the component read and loads replacement component, state of resuming operation.

To the above-mentioned explanation of the disclosed embodiments, professional and technical personnel in the field are realized or uses the present invention.To be apparent for those skilled in the art to the multiple amendment of these embodiments, General Principle as defined herein when not departing from the spirit or scope of the embodiment of the present invention, can realize in other embodiments.Therefore, the embodiment of the present invention can not be restricted to these embodiments shown in this article, but will meet the widest scope consistent with principle disclosed herein and features of novelty.

Claims (8)

1. the routing protocol component dynamic operation method based on state pond, it is characterized in that: containing routing protocol component group, Routing Protocol dynamic operation engine and Routing Protocol running status pond, Routing Protocol dynamic operation engine is the bridge between routing protocol component group and Routing Protocol running status pond, by scheduling engine, enters pond engine and go out pond engine to form.

2. the routing protocol component dynamic operation method based on state pond according to claim 1, it is characterized in that: described routing protocol component group is made up of Routing Protocol assembly, each Routing Protocol assembly is made up of several routing protocol components; Routing Protocol assembly is towards specific Routing Protocol, and one group of routing protocol component is combined into Routing Protocol assembly, realizes ad hoc routing protocol function.

3. the routing protocol component dynamic operation method based on state pond according to claim 2, is characterized in that: described Routing Protocol assembly is RIP protocol component, bgp protocol assembly and ospf protocol assembly.

4. the routing protocol component dynamic operation method based on state pond according to claim 2, it is characterized in that: described routing protocol component is towards specific function, it is the module implementing the process of ad hoc routing protocol specific function, as the router-level topology of RIP, routing protocol component comprises the open restructural component of Message Processing component, protocol status mechanism member, router-level topology component three aspects, of equal value with layer member function, component dynamic random under the scheduling of Routing Protocol mimicry runtime engine of three aspects combines and the function of cooperative achievement Routing Protocol.

5. the routing protocol component dynamic operation method based on state pond according to claim 1, is characterized in that: described Routing Protocol running status pond is RIP running status pond, BGP running status pond and OSPF running status pond; It safeguards that each Routing Protocol runs context, comprises Message Processing component, protocol status mechanism member, the special operation context of router-level topology component and component and shares context.

6. the routing protocol component dynamic operation method based on state pond according to claim 5, is characterized in that: described special operation context comprises the information such as component running state information, component event information, component input and output routing protocol data bag and Routing Protocol metadata; Component shares context and comprises the agreement overall operation relevant informations such as protocol running state, protocol link state, agreement timer.

7. the routing protocol component dynamic operation method based on state pond according to claim 1, it is characterized in that: described scheduling engine monitoring runs the state of component, formulate component saltus step decision-making and select reconstruct component, to entering pond engine and go out pond engine inject into pond event respectively and go out pond event; Enter pond engine and enter pond event-driven by component, component is also run context and enters pond by unloading component; Go out pond engine by component saltus step event-driven, component relevant operation context is gone out pond and loaded members.

8. the routing protocol component dynamic operation method based on state pond according to claim 1, is characterized in that, the workflow of described Routing Protocol dynamic operation engine is:

Step 1: scheduling engine, when finding that the component random jump time expires or monitors component operation exception, enters pond event to entering pond engine notification member;

Step 2: component enter pond event trigger into pond engine perform component enter pond flow process, by operation context special and shared for component write correspondence protocol status pond in, be then fed back into pond result to scheduling engine;

Step 3: scheduling engine is receiving execution component gravity treatment after into pond feedback, selects same layer component of equal value as replacement component, and goes out pond event to going out pond engine notification member;

Step 4: component goes out pond event to be triggered out pond engine and perform component and go out pond flow process, reads the operation context that component is special and shared, then feed back pond result to scheduling engine from the protocol status pond of correspondence;

Step 5: scheduling engine receive out pond feedback after, to entering pond engine notification member unloading event, to going out pond engine notification member load events;

Step 6: component unloading event triggers into pond engine unloading component;

Step 7: component load events triggers out pond engine loaded members, runs context based on the component read and loads replacement component, state of resuming operation.