Patent application number | Description | Published |
20100031287 | AUTOMATION-RESISTANT, ADVERTISING-MERGED INTERACTIVE SERVICES - Systems and methodologies for implementing automation-resistant interactive computing services are provided herein. Function invocation mechanisms can be utilized as described herein to facilitate invocation and/or activation of one or more functions of an interactive service upon performance of an interaction falling within a predefined class of interaction with selected multimedia content. The described functionality invocation mechanisms can operate similarly to a traditional captcha image by requiring interaction that is easily understandable and performable by a human user but is prohibitively difficult for an automated program to carry out. Techniques such as masking relationships between user interaction and function invocation and varying elements of the selected multimedia content for respective accesses can be utilized to provide additional resistance to automation. Described invocation mechanisms can additionally be merged with advertising, which can optionally be targeted to a particular user(s). | 02-04-2010 |
20100100953 | PassThru for Client Authentication - This disclosure pertains generally to client authentication. One aspect of the disclosure relates to a first server for presenting evidence to a Domain Controller (DC) of a first authentication context being submitted from a client to the first server to obtain a delegable credential, wherein the credential can be used to request a second authentication context from that client to a second server. Another aspect relates to the first server providing a pass-thru with evidence to a DC. The evidence relates to a first authentication context being submitted from a client to the first server that it obtained a delegable credential. The pass-thru is used in combination with the credential to request a second authentication context from the client to a second server. | 04-22-2010 |
20100228962 | OFFLOADING CRYPTOGRAPHIC PROTECTION PROCESSING - Some embodiments are directed to processing packet data sent according to a security protocol between a first computer and a second computer via a forwarding device. The forwarding device performs a portion of the processing, and forwards the packet data to a third computer, connected to the forwarding device, for other processing. The third computer may support non-standard extensions to the security protocol, such as extensions used in authorizing and establishing a connection over the secure protocol. The packet data may be subject to policies, such as firewall policies or security policies, that may be detected by the third computer. The third computer sends the results of its processing, such as a cryptographic key, or a detected access control policy, to the forwarding device. | 09-09-2010 |
20110013634 | Ipsec Encapsulation Mode - Described are embodiments directed to negotiating an encapsulation mode between an initiator and a responder. As part of the negotiation of the security association, an encapsulation mode is negotiated that allows packets to be sent between the initiator and responder without encapsulation. The ability to send packets without encapsulation allows intermediaries, such as a firewall, at the responder to easily inspect the packets and implement additional features such as security filtering. | 01-20-2011 |
20120260336 | NETWORK ACCOUNTABILITY AMONG AUTONOMOUS SYSTEMS - In one kind of DoS attack, malicious customers may try to send a large number of filter requests against an innocent customer. In one implementation, a Filter Request Server (FRS) may allow a customer against who a filter request is made to dispute the implicit accusation of the filter request or stop sending malicious traffic. If the customer claims innocence, the FRS may log destination addresses of data packets sent by the customer and identify and ignore false filter requests if these filter requests come from customers who do not correspond to one or more of the destination addresses that have previously been logged by the FRS. | 10-11-2012 |
20140189823 | Pass-Thru for Client Authentication - This disclosure pertains generally to client authentication. One aspect of the disclosure relates to a first server for presenting evidence to a Domain Controller (DC) of a first authentication context being submitted from a client to the first server to obtain a delegable credential, wherein the credential can be used to request a second authentication context from that client to a second server. Another aspect relates to the first server providing a pass-thru with evidence to a DC. The evidence relates to a first authentication context being submitted from a client to the first server that it obtained a delegable credential. The pass-thru is used in combination with the credential to request a second authentication context from the client to a second server. | 07-03-2014 |
Patent application number | Description | Published |
20080320152 | METHOD AND SYSTEM FOR DETECTING A COMMUNICATION PROBLEM IN A COMPUTER NETWORK - A computer in a network runs a verification procedure in which it sends data packets to another computer in the network. Some or all of the data packets contain, either individually or collectively, a secret piece of information, such as a secret code. The computer then makes a determination regarding the network links between it and the other computer. If, for example, the other computer is able to respond by providing the secret piece of information back, then the computer sending the data packets concludes that the devices along the network links en route to the other computer are properly forwarding data packets. | 12-25-2008 |
20090276828 | METHOD OF NEGOTIATING SECURITY PARAMETERS AND AUTHENTICATING USERS INTERCONNECTED TO A NETWORK - A method for authenticating and negotiating security parameters among two or more network devices is disclosed. The method has a plurality of modes including a plurality of messages exchanged between the two or more network devices. In a main mode, the two or more network devices establish a secure channel and select security parameters to be used during a quick mode and a user mode. In the quick mode, the two or more computers derive a set of keys to secure data sent according to a security protocol. The optional user mode provides a means of authenticating one or more users associated with the two or more network devices. A portion of the quick mode is conducted during the main mode thereby minimizing the plurality of messages that need to be exchanged between the initiator and the responder. | 11-05-2009 |
20100318799 | DISCOVERY OF SECURE NETWORK ENCLAVES - A hierarchical key generation and distribution mechanism for a computer system in which devices are organized into secure enclaves. The mechanism enables network access to be tailored to approximate minimum needed privileges for each device. At the lowest level of the hierarchy, keys are used to form security associations between devices. Keys at each level of the hierarchy are generated from keys at a higher level of the hierarchy and key derivation information. Key derivation information is readily ascertainable, either from identifiers for devices or from within messages, supporting hardware offload of cryptographic functions. Because keys may be generated based on the enclaves in which the hosts participating in a security association are located, the system includes a mechanism by which devices can discover the enclave in which they are located. | 12-16-2010 |
20100318800 | KEY MANAGEMENT IN SECURE NETWORK ENCLAVES - A hierarchical key generation and distribution mechanism for a computer system in which devices are organized into secure enclaves. The mechanism enables network access to be tailored to approximate minimum needed privileges for each device. At the lowest level of the hierarchy, keys are used to form security associations between devices. Keys at each level of the hierarchy are generated from keys at a higher level of the hierarchy and key derivation information. Key derivation information is readily ascertainable, either from identifiers for devices or from within messages, supporting hardware offload of cryptographic functions. Because keys may be generated based on the enclaves in which the hosts participating in a security association are located, the system includes a mechanism by which devices can discover the enclave in which they are located. | 12-16-2010 |
20120155646 | SUPPORTING DNS SECURITY IN A MULTI-MASTER ENVIRONMENT - Multiple peer domain name system (DNS) servers are included in a multi-master DNS environment. One of the multiple peer DNS servers is a key master peer DNS server that generates one or more keys for a DNS zone serviced by the multiple peer DNS servers. The key master peer DNS server can also generate a signing key descriptor that identifies the set of one or more keys for the DNS zone, and communicate the signing key descriptor to the other ones of the multiple peer DNS servers. | 06-21-2012 |