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    • 5. 发明授权
    • Decoupling access control from key management in a network
    • 将访问控制从网络中的密钥管理中解耦
    • US07336790B1
    • 2008-02-26
    • US09458020
    • 1999-12-10
    • Germano CaronniAmit GuptaTom R. MarksonSandeep KumarChristoph L. SchubaGlenn C. Scott
    • Germano CaronniAmit GuptaTom R. MarksonSandeep KumarChristoph L. SchubaGlenn C. Scott
    • H04L9/32
    • H04L63/0272
    • Methods and systems consistent with the present invention provide a Supernet, a private network constructed out of components from a public-network infrastructure. Supernet nodes can be located on virtually any device in the public network (e.g., the Internet), and both their communication and utilization of resources occur in a secure manner. As a result, the users of a Supernet benefit from their network infrastructure being maintained for them as part of the public-network infrastructure, while the level of security they receive is similar to that of a private network. The Supernet has an access control component and a key management component which are decoupled. The access control component implements an access control policy that determines which users are authorized to use the network, and the key management component implements the network's key management policies, which indicate when keys are generated and what encryption algorithm is used. Both access control and key management are separately configurable. Thus, the Supernet provides great flexibility by allowing different key management policies to be used with the same access control component.
    • 与本发明一致的方法和系统提供了一种Supernet,一种由公共网络基础设施的组件构成的私有网络。 超网络节点可以位于公共网络(例如,因特网)中的几乎任何设备上,并且资源的通信和利用都以安全的方式发生。 因此,Supernet的用户受益于其网络基础架构,作为公共网络基础架构的一部分,而其接收的安全级别与私有网络的安全级别相似。 Supernet具有访问控制组件和分离的密钥管理组件。 访问控制组件实现访问控制策略,其确定哪些用户被授权使用网络,并且密钥管理组件实现网络的密钥管理策略,其指示生成密钥以及使用什么加密算法。 访问控制和密钥管理都可以单独配置。 因此,通过允许不同的密钥管理策略与相同的访问控制组件一起使用,Supernet提供了极大的灵活性。
    • 6. 发明授权
    • Using multicasting to provide ethernet-like communication behavior to selected peers on a network
    • 使用组播为网络上的选定对等体提供类似以太网的通信行为
    • US06870842B1
    • 2005-03-22
    • US09457915
    • 1999-12-10
    • Germano CaronniAmit GuptaTom R. MarksonSandeep KumarChristoph L. SchubaGlenn C. Scott
    • Germano CaronniAmit GuptaTom R. MarksonSandeep KumarChristoph L. SchubaGlenn C. Scott
    • H04L12/18H04L12/28H04L12/56
    • H04L12/18
    • Methods and systems consistent with the present invention provide a Supernet, a private network constructed out of components from a public-network infrastructure. Supernet nodes can be located on virtually any device in the public network (e.g., the Internet), and both their communication and utilization of resources occur in a secure manner. The Supernet also uses multicast communication to create Ethernet-like communication between its nodes. In using multicasting, each communication of each node on a channel in the private network is sent to a multicast address which sends it to all of the nodes on the channel. Sending a copy of every communication to all of the other nodes on the channel makes system tasks, like debugging, easy for the nodes on the channel. The multicasting provided by the private network is dynamic in that multicast addresses can be assigned for use by a channel and reclaimed so as to allow sharing of the multicast addresses.
    • 与本发明一致的方法和系统提供了一种Supernet,一种由公共网络基础设施的组件构成的私有网络。 超网络节点可以位于公共网络(例如,因特网)中的几乎任何设备上,并且资源的通信和利用都以安全的方式发生。 Supernet还使用组播通信在其节点之间创建类似以太网的通信。 在使用多播时,专网中信道上的每个节点的每个通信都被发送到多播地址,将其发送到该信道上的所有节点。 将每个通信的副本发送到通道上的所有其他节点,使得系统任务(如调试)对于通道上的节点很容易。 由私有网络提供的多播是动态的,因为多播地址可以被分配给信道使用并被回收以允许多播地址的共享。
    • 9. 发明授权
    • Method and apparatus for providing secure communication with a relay in a network
    • 用于提供与网络中的中继器的安全通信的方法和装置
    • US06643701B1
    • 2003-11-04
    • US09441451
    • 1999-11-17
    • Ashar AzizGeoffrey BaehrGermano CaronniAmit GuptaVipul GuptaGlenn C. Scott
    • Ashar AzizGeoffrey BaehrGermano CaronniAmit GuptaVipul GuptaGlenn C. Scott
    • G06F1516
    • H04L63/0442G06F21/33G06F21/445G06Q20/367G06Q20/382H04L63/0823H04L63/166H04L67/14
    • Methods and systems of the present invention include providing a connection between a first computer and a second computer by receiving, at a third computer, information regarding one of the first and second computers to facilitate establishment of a secure connection between the first computer and the second computer, creating a first end-to-end security link between the first computer and third computer, and creating a second end-to-end security link between the second computer and the third computer to establish the secure connection. The first and second computers could be a client and a server on the Internet, and these methods and systems can, for example, increase the possible number of new secure connections to the server. The third computer also permits processing of information transmitted between the client and server in the third computer. For example, the information could be reformatted or used in testing a process of one of the first and second computers.
    • 本发明的方法和系统包括通过在第三计算机处接收关于第一和第二计算机之一的信息来提供第一计算机和第二计算机之间的连接,以便于建立第一计算机与第二计算机之间的安全连接 计算机,在第一计算机和第三计算机之间创建第一端到端安全链路,以及在第二计算机和第三计算机之间创建第二端到端安全链路以建立安全连接。 第一和第二台计算机可以是因特网上的客户端和服务器,并且这些方法和系统可以例如增加到服务器的可能数量的新的安全连接。 第三计算机还允许在第三计算机中处理在客户端和服务器之间传送的信息。 例如,可以将信息重新格式化或用于测试第一和第二计算机之一的过程。
    • 10. 发明授权
    • Method for serializer maintenance and coalescing
    • 串行器维护和聚结方法
    • US07590632B1
    • 2009-09-15
    • US11045237
    • 2005-01-28
    • Germano CaronniRaphael J. RomGlenn C. Scott
    • Germano CaronniRaphael J. RomGlenn C. Scott
    • G06F7/00G06F17/30G06F17/00G06F3/00G06F9/44G06F9/46G06F13/00
    • G06F9/52Y10S707/99944Y10S707/99953
    • A method for serializer maintenance and coalescing in a distributed object store (DOS) including a first partition and a second partition, involving requesting an update of an object, wherein the object includes an active globally unique identifier (AGUID) object and at least one version globally unique identifier (VGUID) object, wherein the least one VGUID object includes a first generation number and a first serializer name, determining whether a first serializer is located in the first partition using the first serializer name, wherein the first serializer is associated with the first generation number, if the first serializer is not located in the first partition, constructing a second serializer using the first serializer name, assigning a second generation number to the second serializer, obtaining an order of the update to the object using the second serializer, and creating a new VGUID object.
    • 一种在包括请求对象的更新的包括第一分区和第二分区的分布式对象存储(DOS)中的序列化程序维护和合并的方法,其中所述对象包括活动的全局唯一标识符(AGUID)对象和至少一个版本 全球唯一标识符(VGUID)对象,其中所述至少一个VGUID对象包括第一代号和第一串行器名称,使用所述第一串行器名称确定所述第一分区是否位于所述第一分区中,其中所述第一串行器与所述第一序列化器相关联 第一编号,如果第一串行器不位于第一分区中,则使用第一串行器名称构建第二串行器,向第二串行器分配第二代数,使用第二串行器获取更新对象的顺序, 并创建一个新的VGUID对象。