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    • 4. 发明授权
    • Authentication and authorization across autonomous network systems
    • 跨自治网络系统的认证和授权
    • US07617522B2
    • 2009-11-10
    • US11379998
    • 2006-04-24
    • Donald E. SchmidtClifford P. Van DykePaul J. LeachPraerit GargMurli D. Satagopan
    • Donald E. SchmidtClifford P. Van DykePaul J. LeachPraerit GargMurli D. Satagopan
    • G06F17/00H04K1/00
    • H04L63/0815H04L63/083
    • An enterprise network architecture has a trust link established between two autonomous network systems that enables transitive resource access between network domains of the two network systems. The trust link is defined by data structures maintained by each of the respective network systems. The first network system maintains namespaces that correspond to the second network system and a domain controller in the first network system, or a first network system administrator, indicates whether to trust individual namespaces. An account managed by a domain in the second network system can request authentication via a domain controller in the first network system. The first network system determines from the trust link to communicate the authentication request to the second network system. The first network system also determines from the trust link where to communicate authorization requests when administrators manage group memberships and access control lists.
    • 企业网络架构具有建立在两个自主网络系统之间的信任链路,能够实现两个网络系统的网络域之间的传递资源访问。 信任链接由相应网络系统中的每一个维护的数据结构来定义。 第一网络系统维护对应于第二网络系统的命名空间和第一网络系统中的域控制器,或者第一网络系统管理员指示是否信任个体命名空间。 由第二网络系统中的域管理的帐户可以通过第一网络系统中的域控制器请求认证。 第一网络系统从信任链路确定将认证请求传送到第二网络系统。 当管理员管理组成员身份和访问控制列表时,第一个网络系统还从信任链接确定何处传达授权请求。
    • 8. 发明授权
    • Authentication and authorization across autonomous network systems
    • 跨自治网络系统的认证和授权
    • US07185359B2
    • 2007-02-27
    • US10029426
    • 2001-12-21
    • Donald E. SchmidtClifford P. Van DykePaul J. LeachPraerit GargMurli D. Satagopan
    • Donald E. SchmidtClifford P. Van DykePaul J. LeachPraerit GargMurli D. Satagopan
    • G06F7/04G06F17/30H04L9/32
    • H04L63/0815H04L63/083
    • An enterprise network architecture has a trust link established between two autonomous network systems that enables transitive resource access between network domains of the two network systems. The trust link is defined by data structures maintained by each of the respective network systems. The first network system maintains namespaces that correspond to the second network system and a domain controller in the first network system, or a first network system administrator, indicates whether to trust individual namespaces. An account managed by a domain in the second network system can request authentication via a domain controller in the first network system. The first network system determines from the trust link to communicate the authentication request to the second network system. The first network system also determines from the trust link where to communicate authorization requests when administrators manage group memberships and access control lists.
    • 企业网络架构具有建立在两个自主网络系统之间的信任链路,能够实现两个网络系统的网络域之间的传递资源访问。 信任链接由相应网络系统中的每一个维护的数据结构来定义。 第一网络系统维护对应于第二网络系统的命名空间和第一网络系统中的域控制器,或者第一网络系统管理员指示是否信任个体命名空间。 由第二网络系统中的域管理的帐户可以通过第一网络系统中的域控制器请求认证。 第一网络系统从信任链路确定将认证请求传送到第二网络系统。 当管理员管理组成员身份和访问控制列表时,第一个网络系统还从信任链接确定何处传达授权请求。
    • 9. 发明授权
    • Method and system for replication in a hybrid network
    • 混合网络中复制的方法和系统
    • US06751674B1
    • 2004-06-15
    • US09360498
    • 1999-07-26
    • Murli D. SatagopanClifford P. Van Dyke
    • Murli D. SatagopanClifford P. Van Dyke
    • G06F1516
    • H04L29/06H04L67/1095H04L69/329Y10S707/99953
    • Method and system for networking multiple-master servers, including multiple-master servers, with single-master servers are described. A checkpoint-flag is used to identify a state when the same changes are present in the change-log of a first multiple-master server, which is emulating a primary server for the single master servers in the network, and a second multiple master server in the network. This done by identifying a replication cycle in which no changes are made to either the first multiple-master server or the second multiple master serve. The change-log of the first multiple master server is adopted by the second multiple master server, thus ensuring that the multiple master server in the network have their change-logs converge to reflect the order in the change-log of the multiple master server emulating a primary server. Thus any of the multiple master servers can takeover the task of the primary server in the event such a promotion is required without inconveniencing the single master servers in the network. This strategy helps in realization of hybrid networks that retain both single master and multiple master functionality and, moreover, facilitate a smooth and economical switch to a multiple master server based network from a single master server based network.
    • 描述了使用单主服务器联网多主服务器(包括多主服务器)的方法和系统。 当第一个多主服务器的更改日志中存在相同的更改时,检查点标志用于标识状态,该第一多主服务器正在模拟网络中单个主服务器的主服务器,第二个多主服务器 在网络中。 这是通过识别不对第一个多主服务器或第二个多主服务器进行任何更改的复制周期来实现的。 第一个多主服务器的变更日志由第二个多主服务器采用,从而确保网络中的多个主服务器的变更日志收敛,以反映多主服务器的更改日志中的顺序 一个主服务器。 因此,在需要这样的促销的情况下,任何多个主服务器可以接管主服务器的任务,而不会使网络中的单个主服务器不受影响。 这种策略有助于实现保留单主机和多主机功能的混合网络,此外,有助于平滑和经济地从基于单个主服务器的网络切换到基于主服务器的多个网络。