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    • 5. 发明申请
    • Automatic protection of an SP infrastructure against exterior traffic
    • 自动保护SP基础设施免受外部流量的影响
    • US20070014293A1
    • 2007-01-18
    • US11183381
    • 2005-07-18
    • Clarence FilsfilsStefano PrevidiJohn ScudderDavid Ward
    • Clarence FilsfilsStefano PrevidiJohn ScudderDavid Ward
    • H04L12/56
    • H04L45/742H04L45/04H04L63/10
    • A method and system for protecting valuable resources within an autonomous system network. Address prefixes within the system are designated as valuable and a flag bit is associated with the address within routing tables of routers of the network. Interfaces to border routers are identified and when packets are received at those interfaces, the packets are flagged with a flag or tag bit. The destination address of the received packet is compared to the flag bit associated with the valuable resource prefix, and if the packet is directed to that resource the packet is dropped and/or logged, but the packet is not forwarded to that resource. In specific cases an interface from an external source may be configured to not create the flag or tag bit, wherein that packet will be delivered to the destination prefix of the packet.
    • 一种用于保护自治系统网络内有价值资源的方法和系统。 系统中的地址前缀被指定为有价值的,并且标志位与网络的路由器的路由表中的地址相关联。 识别到边界路由器的接口,并且当在这些接口处接收到分组时,分组被标记为标志或标记位。 将接收到的分组的目的地地址与与有价值的资源前缀相关联的标志位进行比较,并且如果分组指向该资源,则分组被丢弃和/或记录,但是分组不被转发到该资源。 在特定情况下,来自外部源的接口可以被配置为不创建标志或标记位,其中该分组将被传递到分组的目的地前缀。
    • 7. 发明申请
    • System and method for dynamically responding to event-based traffic redirection
    • 用于动态响应基于事件的流量重定向的系统和方法
    • US20060291391A1
    • 2006-12-28
    • US11168694
    • 2005-06-27
    • Jean-Philippe VasseurDavid WardStefano PrevidiClarence Filsfils
    • Jean-Philippe VasseurDavid WardStefano PrevidiClarence Filsfils
    • H04J1/16H04L12/28H04L12/56
    • H04L45/22H04L45/02H04L45/28H04L47/70H04L47/746H04L47/762H04L47/825H04L47/829
    • A technique dynamically resizes Traffic Engineering (TE) Label Switched Paths (LSPs) at a head-end node of the TE-LSPs in preparation to receive redirected traffic in response to an event in a computer network. The novel dynamic TE-LSP resizing technique is based on the detection of an event in the network that could cause traffic destined for one or more other (“remote”) head-end nodes of one or more TE-LSPs to be redirected to an event-detecting (“local”) head-end node of one or more TE-LSPs. An example of such a traffic redirection event is failure of a remote head-end node or failure of any of its TE-LSPs. Specifically, the local head-end node maintains TE-LSP steady state sampling and resizing frequencies to adapt the bandwidth of its TE-LSP(s) to gradual changes in the network over time. Upon detection of an event identifying possible traffic redirection, the local head-end node enters a Fast Resize (FR) state, in which the sampling and resizing frequencies are increased to quickly adapt the TE-LSP bandwidth(s) to any received redirected traffic.
    • 技术动态地调整TE-LSP的头端节点处的流量工程(TE)标签交换路径(LSP),准备响应于计算机网络中的事件接收重定向的流量。 新型动态TE-LSP调整大小技术基于网络中可能导致一个或多个TE-LSP的一个或多个其他(“远程”)头端节点的流量被重定向到的事件的检测 一个或多个TE-LSP的事件检测(“本地”)头端节点。 这种流量重定向事件的示例是远程头端节点的故障或其任何TE-LSP的故障。 具体来说,本地前端节点维护TE-LSP稳态采样和调整频率,以适应其TE-LSP的带宽随时间逐渐变化的网络。 在检测到识别可能的业务重定向的事件时,本地前端节点进入快速调整大小(FR)状态,其中增加采样和调整大小频率以快速地将TE-LSP带宽适配到任何接收到的重定向业务 。
    • 8. 发明申请
    • Loop prevention technique for MPLS using service labels
    • 使用服务标签的MPLS环路防护技术
    • US20060193248A1
    • 2006-08-31
    • US11068081
    • 2005-02-28
    • Clarence FilsfilsDavid WardStefano PrevidiJean-Philippe VasseurJim GuichardRobert Raszuk
    • Clarence FilsfilsDavid WardStefano PrevidiJean-Philippe VasseurJim GuichardRobert Raszuk
    • H04J3/14H04L12/56H04J1/16H04L12/28
    • H04L45/18H04L45/04H04L45/22H04L45/28H04L45/50
    • A local fast reroute (FRR) technique is implemented at the edge of a computer network. In accordance with the technique, if an edge device detects a node or link failure that prevents it from communicating with a neighboring routing domain, the edge device reroutes at least some data packets addressed to that domain to a backup edge device which, in turn, forwards the packets to the neighboring domain. The rerouted packets are designated as being “protected” (i.e., rerouted) data packets before they are forwarded to the backup edge device. The backup edge device identifies protected data packets as those which contain a predetermined “service” label in their MPLS label stacks. In other words, the service label is used as an identifier for packets that have been FRR rerouted. Upon receiving a data packet containing a service label, the backup edge device is not permitted to reroute the packet a second time, e.g., in response to another inter-domain node or link failure, thereby preventing loops from developing at the edge of the network.
    • 本地快速重路由(FRR)技术在计算机网络的边缘实现。 根据该技术,如果边缘设备检测到阻止其与相邻路由域通信的节点或链路故障,则边缘设备将至少一些寻址到该域的数据分组重新路由到备用边缘设备, 将数据包转发到相邻域。 重新路由的数据包在被转发到备份边缘设备之前被指定为“保护”(即重新路由)数据分组。 备份边缘设备将受保护的数据包标识为在其MPLS标签堆栈中包含预定“服务”标签的数据包。 换句话说,服务标签被用作已被FRR重新路由的数据包的标识符。 在接收到包含服务标签的数据分组时,不允许备份边缘设备第二次重新路由该分组,例如响应于另一个域间节点或链路故障,从而防止在网络边缘发展的环路 。