Remote Triggered Black Hole Scenario describes how to use the Ixia-c traffic generator to simulate a DDoS flood attack. Ixia-c supports the Open Traffic Generator API that is used in the article to program two traffic flows: the first representing normal user traffic (shown in blue) and the second representing attack traffic (show in red).
The article goes on to demonstrate the use of remotely triggered black hole (RTBH) routing to automatically mitigate the simulated attack. The chart above shows traffic levels during two simulated attacks. The DDoS mitigation controller is disabled during the first attack. Enabling the controller for the second attack causes to attack traffic to be dropped the instant it crosses the threshold.
The diagram shows the Containerlab topology used in the Remote Triggered Black Hole Scenario lab (which can run on a laptop). The Ixia traffic generator's eth1 interface represents the Internet and its eth2 interface represents the Customer Network being attacked. Industry standard sFlow telemetry from the Customer router, ce-router, streams to the DDoS mitigation controller (running an instance of DDoS Protect). When the controller detects a denial of service attack it pushed a control via BGP to the ce-router, which in turn pushes the control upstream to the service provider router, pe-router, which drops the attack traffic to prevent flooding of the ISP Circuit that would otherwise disrupt access to the Customer Network.
Arista, Cisco, and Juniper have added sFlow support to their BGP routers, see Real-time flow telemetry for routers, making it straightforward to take this solution from the lab to production. Support for Open Traffic Generator API across a range of platforms makes it possible to develop automated tests in the lab environment and apply them to production hardware.
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