This invention relates to a session between a client system and a service provider system over a network. More particularly, this invention relates to a system for detecting an error in the session. Still more particularly, this invention relates to a system that detects an error and modifies the configuration of the session to correct the error and change the behavior of the session.
In today's society, it is common for a client to use a remote computer to connect to a host that provides a service over a network. It is a problem that the session may fail at any one of different stages of the session. Reasons for a failure include, but are not limited to, authentication failures, administrative errors, misconfigured authorization data, and system errors due to system limitations. Currently, when an error causing a failure occurs, the session is terminated.
When a failure occurs, the administrator of the host must manually correct the error. In many systems, the administrator relies on the client calling a support telephone number to be made aware of the failure. This is a problem for the client because the client must spend time calling the support number and talking to a representative of the host. This is also a problem for the host because support telephone number must be maintained and manned by an employee. Thus, those skilled in the art are constantly striving to improve on systems for detecting and correcting errors in a session.
The above and other problems are solved and an advance in the art is made by a system for dynamically detecting and correcting errors in a session in accordance with this invention. A first advantage of a system in accordance with this invention is that the system does not terminate a session for all errors. A second advantage of a system in accordance with this invention is that an administrator no longer has to manually correct all errors. A third advantage of a system in accordance with this invention is that a customer does not have to call the administrator as frequently to correct errors encountered in a session.
In accordance with this invention, a system for dynamically detecting and correcting errors in accordance with this invention operates in the following manner. A router and/or server providing a connection over a network for the session receives an indication of an error for the session. Some examples of indications of errors may include but are not limited to messages transmitted from other processes and/or connected devices flags, console debugs, and accounting records. When an indication of an error is received, an error correction modification to the configuration of the session is read from a memory of the router and/or server. The error correction modification is then implemented in the configuration of the session to change the behavior of the session and the session is allowed to continue.
In some embodiments, the error correction modification to the configuration is determined by the error indicated. In other embodiments, the error correction modification to the configuration may be determined by the user of the session. In still other embodiments, the modification of the configuration may be determined by the Quality of Service provided to the user of the session. In these embodiments, the indication of the error may include an identification of the user and/or an indication of the Quality of Service provided to the user.
In some embodiments of a system in accordance with this invention, the router may store a default error correction modification for the configuration of a session for the error. The router may then receive an input of a modification of the configuration for the error. The router then stores the input modification in memory and uses the input error correction modification when an indication of the error is received.
The above and other advantages and features of this invention are set forth in the following Detailed Description and are shown in the following drawings:
This invention relates to providing a system that dynamically detects and corrects errors in a session. In the following disclosure, the same reference numeral is used for a component shown in different figures.
Host 110 is a processing system that connects other processing systems 120-122 to network 115. Host 110 may be a router, switch, server, or any other type of processing device that connects to a network to communicate with other systems. In this exemplary embodiment, host 110 is a router and systems 120-122 include servers that provide various applications for connected devices over the network. Some examples of connected processing systems 120-122 include but are not limited to, an authentication server, an account server, and a database server.
Network device 200 includes ports 205-209. Ports 205-209 connects network device 200 to other processing systems in a network. The other processing systems that may be connected include computers, other routers or any other digital processing systems. One skilled in the art will further recognize that ports 205-209 are shown for exemplary purposes only and the exact number and configuration of the ports are left to one skilled in the art designing a specific network.
Ports 205-209 are connected to switch circuitry 215. Switch circuitry 215 is circuitry that transmits received packets to the proper ports for delivery to the proper address. One skilled in the art will recognize that there are many different types of circuitry that may be used to transmit packets between proper ports and an explanation of the switching circuitry is not critical to this invention and is omitted for brevity.
Processing unit 220 is connected to switching circuitry 215. Processing unit 220 is a processor, microprocessor, or any combination of processors and microprocessors that execute instructions to perform applications for performing functions in network device 200. Processing unit 220 is also connected to a volatile memory 225 and a non-volatile memory 230 via memory bus 235.
Volatile memory 225 is a memory such as a Random Access Memory (RAM). A volatile memory stores instructions and data used by processing unit 220 to perform applications. One such application is a router operating system. The routing operating system is an application which allows network device 200 to perform other applications that provide the functions of network device 200. An example of a router operating system is Inter-network Operating System (IOS) designed by Cisco Systems Inc. One skilled in the art will recognize that many different types of memory may be used a non-volatile memory such SRAM and DRAM.
Non-volatile memory 230 is a memory such as a Read Only Memory (ROM). Non-volatile memory 230 stores configuration and other vital information for router 100. One skilled in the art will recognize that there are many different types of memory that may be used as a non-volatile memory.
Modules 240, 245, and 250 are connected to switching circuitry 215. Modules 240, 245, and 250 are device and/or software that prepare specific features in network device 200. An example of a module is a Voice Over Internet Protocol (VoIP) module for providing telephonic communications to processing devices connected to network device 200. One skilled in the art will recognize that the number of modules and the functions provided by each module may be determined by one skilled in the art designing a particular network device.
This invention relates to a system for dynamically detecting and correcting errors in a session. In accordance with this invention, the system is provided by processes executed from software and/or firmware instructions stored in a memory readable by a processing unit as shown and described in
Host 110 provides a policy manager 305, event manager 310, and profile manager 315. Event manager 310 is a software application that receives messages, flags, and other indications that an event such as an error occurs. Event manager 310 then communicates with the proper software and/or hardware to respond to the indicated event. In accordance with this invention, event manager 310 receives an indication of an error in a session. In response to receiving the indication, event manager 310 transmits an indication of an error to Policy manager 305. In some embodiments of the invention, the indication of the error may include the error, a user of the session, and/or a Quality of Service provided to the user of the session. It is envisioned that other information that can be used to correct the error may be included in the indication transmitted.
Policy manager 305 receives indications from event handler 315 that an event has occurred and determines the rule for handling the event. Policy manager 305 then executes the policy for handling the event. In accordance with this invention, policy manager 305 receives an indication of an error from event manager 310. Policy manager 305 then sends a request to profile manager 315 for rule for handling the error. The rule is a modification to the configuration of the session to correct the error. In accordance with this invention, a modification to the configuration is a change to connection between client 105 and host 110 that corrects the error. Some examples of modification to the configuration can include but are not limited to changing a port on a router handling transmissions for the session; changing a server and/or router handling the session; and allowing a session to proceed without proper authentication.
The Profile manager 315 maintains profiles for various events and errors that indicate actions to take in response to an event. One skilled in the art will recognize that profiles may be stored in a variety of manners. For example, each error may have a different object stored for handling the error, a file storing information for changing the configuration, or a database storing the information each error. In accordance with this invention, profile manager 315 receives the request for the modification for the error. Profile manager 315 then retrieves the proper modification and transmits the modification to policy manager 315 which implements the modification. One skilled in the art will recognize that the proper modification can be determined from the error detected, the user, the Quality of Service of the user, a combination including any of the three previous items, or any other parameters a designer determines.
In step 415, process 400 reads the error correction modification of the configuration from memory. The error correction modification of the configuration of the session is then implemented in step 420 to change the behavior of the session. In step 425, a message is then sent to the client systems in some embodiments to indicate that the error correction modification to the configuration has been implemented to correct the error. A message indicating that the modification has been implemented may also be transmitted to an administrator system in step 430. This message may include information about the error and the modification to allow an administrator to change network configuration to further correct errors. After step 430, process 400 ends.
In step 510, the received error correction modification is stored into the memory storing the error correction modifications. This may include placing data for the modification in a proper format, generating a new object for the modification, editing an existing modification, storing information for determining when the modification is to be used, and/or storing the modification in memory. After the error correction modification is stored in memory, the modification may be used to correct an error and process 500 ends.
The following is a flow diagram of a process used by the exemplary embodiment shown in
In step 610, the event manager passes the indication of the error to policy manager 310. The policy manager receives the indication of the error and transmits a request for a modification to the configuration to correct the error to a profile manager in step 615. The request includes the information needed by the policy manager to determine the proper modification needed to correct the error. This may include, the error type, the user of the session, and/or the quality of service provided to the user for the session. In step 620, the profile manager determines the proper modification to correct the error.
The profile manager then either transmits the modification to the policy manager in step 625. The policy manager then implements the implementation in the configuration in step 630 and process 600 ends.
The above is descriptions of exemplary embodiments in accordance with this invention. It is envisioned that those skilled in the art can and will design alternative systems that infringe on this invention as set forth in following claims either literally or through the Doctrine of Equivalents.
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