A. Gateway API
B. Cilium CLI
C. Cilium Operator
D. Ingress Controller
A. Simplifies network policy enforcement
B. Minimizes latency by optimizing path selection
C. Allows dynamic routing updates
D. Enhances security with encrypted routing information
A. Static IP assignment for pods
B. Fine-grained allocation of pod IP addresses
C. Dependence on external DHCP services
D. Exclusive use of IPv6
A. Implementing TLS termination at the Gateway
B. Employing WireGuard integration at the node level
C. Using native Kubernetes secrets for encryption
D. Utilizing IPsec for data plane encryption
A. It allows for the direct editing of Kubernetes manifests.
B. It supports the detection of anomalous network behavior.
C. It provides deep insights into application-layer protocols.
D. It automatically resolves network issues without manual intervention.
A. Cilium Agent
B. Cilium Operator
C. Cilium Controller
D. Cilium Scheduler
A. Enhanced Binary Programming Framework
B. Extended Berkeley Packet Filter
C. Elastic Backend Platform Facility
D. None of the above
A. It encrypts data packets
B. It routes traffic between autonomous systems
C. It manages internal cluster communications
D. It prioritizes packet delivery
A. cilium connectivity test
B. cilium test connectivity
C. cilium run-test
D. cilium check connectivity
A. Reduces the overall cost of network maintenance
B. Simplifies the deployment of new Kubernetes nodes
C. Enhances security by providing insights into application-level exchanges
D. It allows for hardware-level network configuration
A. Fine-grained control over IP address allocation
B. Auto-scaling of network resources
C. Enhanced compatibility with non-Kubernetes environments
D. Reduced complexity in application deployment
A. Via a command-line interface or the Hubble UI
B. Through manual inspection of log files
C. Through direct integration with Kubernetes dashboards
D. Using custom shell scripts