Patent application number | Description | Published |
20080301784 | Native Use Of Web Service Protocols And Claims In Server Authentication - Architecture for natively authenticating a client application to a web server via HTTP authentication. The Web Services Architecture, and more specifically, Web Services Security, is leveraged to enable legacy applications to access web services transparently to the existing legacy applications. A security support provider (SSP) is created that employs WS-* protocol to at least emulate ws-trust and ws-mex thereby enabling policy exchange via an HTTP protocol stack. Policy can be exchanged via a WWW-Authenticate header enabling legacy applications to use the WS-* family of protocols without modifying the client application. The WS-* protocols are abstracted into a generic programming interface for native client application use. | 12-04-2008 |
20090013410 | DISTRIBUTED THREAT MANAGEMENT - A method and system are provided for managing a security threat in a distributed system. A distributed element of the system detects and reports suspicious activity to a threat management agent. The threat management agent determines whether an attack is taking place and deploys a countermeasure to the attack when the attack is determined to be taking place. Another method and system are also provided for managing a security threat in a distributed system. A threat management agent reviews reported suspicious activity including suspicious activity reported from at least one distributed element of the system, determines, based on the reports, whether a pattern characteristic of an attack occurred, and predicts when a next attack is likely to occur. Deployment of a countermeasure to the predicted next attack is directed in a time window based on when the next attack is predicted to occur. | 01-08-2009 |
20090046726 | VIRTUAL NETWORK WITH ADAPTIVE DISPATCHER - Methods and systems for providing a virtual network are disclosed. At least one layer of abstraction is created between network service applications and conventional network protocols by inserting an adaptive dispatcher between applications and network transport services on each machine in a network. The message protocol in the virtual network is extensible, allowing application programs to create new headers within any message as needed. The adaptive dispatcher contains handlers that route and dispatch messages within the virtual network based on arbitrary content within each message, including any combination of headers and/or data content. Each device on the virtual network has a virtual address to which messages are directed, allowing devices to move within the network without reconfiguring routing tables. Handlers may be automatically created when an event meeting predefined criteria occurs, including the non-occurrence of a condition, making the virtual network self-healing and adaptive to reconfiguration. | 02-19-2009 |
20090198761 | MESSAGE ENCODING/DECODING USING TEMPLATED PARAMETERS - Communication of a compressed message over a communication channel between message processors. The compressed message may be expressed in terms of an expressed or implicit template identification, and values of one or more parameters. Based on the template identification, the meaning of the one or more parameters may be understood, whereas the meaning of the parameter(s) may not be understood without a knowledge of the template. The template provides semantic context for the one or more parameters. The transmitting message processor may have compressed the message using the identified template. Alternatively or in addition, the receiving message processor may decompress the message using the identified template. The template itself need not be part of the compressed message as transmitted. | 08-06-2009 |
20090217383 | LOW-COST SECURITY USING WELL-DEFINED MESSAGES - Well-defined messages may be transmitted from a sending device to a recipient device in order to reduce the processing and resource requirements imposed by the security semantics of general message standards. The well-defined messages may include an expression of a collective intent of the security semantics included in the message. The expression of the security semantics within the message simplifies the discovery process for devices processing the message. The well-defined message may also require that any intermediary devices that process the well-defined message as it is transmitted from the sender device to the receiver device follow the expressed collective intent of the security semantics. If an intermediary device cannot understand or adhere to the expressed intent, the well-defined message must be rejected. | 08-27-2009 |
20100064361 | SECURELY ROAMING DIGITAL IDENTITIES - A cryptographic session key is utilized to maintain security of a digital identity. The session key is valid only for a limited period of time. Additional security is provided via a bimodal credential allowing different levels of access to the digital identify. An identity token contains pertinent information associated with the digital identity. The identity token is encrypted utilizing public-key cryptography. An identifier utilized to verify the validity of the digital identity is encrypted with the cryptographic session key. The encrypted identity token and the encrypted identifier are provided to a service for example. The service decrypts the encrypted identity token utilizing public key cryptography, and decrypts, with the cryptographic session key obtained from the identity token, the encrypted identifier. If the identifier is determined to be valid, the transaction proceeds normally. If the identifier is determined to be invalid, the transaction is halted. | 03-11-2010 |
20130282789 | BINDING CRUD-TYPE PROTOCOLS IN DISTRIBUTED AGREEMENT PROTOCOLS - Various embodiments enable redundant or replica services, such as “cloud” services, to be run at geographically distributed locations. Each replica is capable of performing operations that are generally, identically performed across all replicas. In the event of an interruption at one location, services in other locations can quickly and automatically take over operations. In one or more embodiments, a Distributed Agreement Protocol is utilized to bind a CRUD-type protocol as a state machine. Binding takes place through the use of a reverse proxy that is located at each of the locations at which the service is distributed. In at least some embodiments, the Distributed Agreement Protocol is implemented as the Paxos protocol or a variant thereof, and/or the CRUD-type protocol comprises the HTTP protocol. | 10-24-2013 |