Tag: IP Exhaustion
Problems where IP address pools are depleted, preventing new network allocations
| ID | Title | Description | Category | Technology | Tags |
|---|---|---|---|---|---|
| CRE-2025-0112 Critical Impact: 10/10 Mitigation: 4/10 | AWS VPC CNI Node IP Pool Depletion Crisis | Critical AWS VPC CNI node IP pool depletion detected causing cascading pod scheduling failures. This pattern indicates severe subnet IP address exhaustion combined with ENI allocation failures, leading to complete cluster networking breakdown. The failure sequence shows ipamd errors, kubelet scheduling failures, and controller-level pod creation blocks that render clusters unable to deploy new workloads, scale existing services, or recover from node failures. This represents one of the most severe Kubernetes infrastructure failures, often requiring immediate manual intervention including subnet expansion, secondary CIDR provisioning, or emergency workload termination to restore cluster functionality. | VPC CNI Problems | aws-vpc-cni | AWSEKSKubernetesNetworkingVPC CNIAWS CNIIP ExhaustionENI AllocationSubnet ExhaustionPod Scheduling FailureCluster ParalysisAWS API LimitsKnown ProblemCritical InfrastructureService OutageCascading FailureCapacity ExceededScalability IssueRevenue ImpactCompliance ViolationThreshold ExceededInfrastructurePublic |
| CRE-2025-0122 Critical Impact: 10/10 Mitigation: 6/10 | AWS VPC CNI IP Address Exhaustion Crisis | Critical AWS VPC CNI IP address exhaustion detected. This pattern indicates cascading failures where subnet IP exhaustion leads to ENI allocation failures, pod scheduling failures, and complete service unavailability. The failure sequence shows IP allocation errors, ENI attachment failures, and resulting pod startup failures that affect cluster scalability and workload deployment. | Networking Problems | aws-vpc-cni | AWSVPC CNIKubernetesNetworkingIP ExhaustionENI AllocationPod SchedulingCluster ScalingHigh AvailabilityService Unavailability |