#kubernetes

### Impact For users who deploy Hubble UI using either Cilium CLI or via the Cilium Helm chart, an insecure default `Access-Control-Allow-Origin` header value could lead to sensitive data exposure. A user with access to a Hubble UI instance affected by this issue could leak configuration details about the Kubernetes cluster which Hubble UI is monitoring, including node names, IP addresses, and other metadata about workloads and the cluster networking configuration. In order for this vulnerability to be exploited, a victim would have to first visit a malicious page. ### Patches This issue was patched in https://github.com/cilium/cilium/commit/a3489f190ba6e87b5336ee685fb6c80b1270d06d This issue affects: - Cilium between v1.14.0 and v1.14.18 inclusive - Cilium between v1.15.0 and v1.15.12 inclusive - Cilium between v1.16.0 and v1.16.5 inclusive This issue is patched in: - Cilium v1.14.19 - Cilium v1.15.13 - Cilium v1.16.6 ### Workarounds Users who deploy Hubble UI using the Ciliu...

### Impact In a Kubernetes cluster where Cilium is configured to proxy DNS traffic, an attacker can crash Cilium agents by sending a crafted DNS response to workloads from outside the cluster. For traffic that is allowed but without using DNS-based policy, the dataplane will continue to pass traffic as configured at the time of the DoS. For workloads that have DNS-based policy configured, existing connections may continue to operate, and new connections made without relying on DNS resolution may continue to be established, but new connections which rely on DNS resolution may be disrupted. Any configuration changes that affect the impacted agent may not be applied until the agent is able to restart. ### Patches This issue affects: - Cilium v1.14 between v1.14.0 and v1.14.17 inclusive - Cilium v1.15 between v1.15.0 and v1.15.11 inclusive - Cilium v1.16 between v1.16.0 and v1.16.4 inclusive This issue is fixed in: - Cilium v1.14.18 - Cilium v1.15.12 - Cilium v1.16.5 ### Workaroun...

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A critical security breach in the software supply chain has been detected. An attacker accessed Kong’s DockerHub account…

A flaw was found in the Hive ClusterDeployments resource in OpenShift Dedicated. In certain conditions, this issue may allow a developer account on a Hive-enabled cluster to obtain cluster-admin privileges by executing arbitrary commands on the hive/hive-controllers pod.

Cybersecurity researchers have uncovered three security weaknesses in Microsoft's Azure Data Factory Apache Airflow integration that, if successfully exploited, could have allowed an attacker to gain the ability to conduct various covert actions, including data exfiltration and malware deployment. "Exploiting these flaws could allow attackers to gain persistent access as shadow administrators

Three vulnerabilities in the service's Apache Airflow integration could have allowed attackers to take shadow administrative control over an enterprise cloud infrastructure, gain access to and exfiltrate data, and deploy malware.

Red Hat Advanced Cluster Security for Kubernetes and Red Hat Advanced Cluster Security for Kubernetes Cloud Service versions 4.6 are now available. This update lays the foundation for a future based on policy as code and improves the UI to make it easier for users to find what they need.The significant changes in this version can be found here, but the highlights are:Violations Management UX improvementsACS Scanner v4 adopts Red Hat CSAF/VEXNVD CVSS scores for all CVEs (when available)Compliance reportingACSCS PCI DSS 4.0.0 complianceRed Hat Advanced Cluster Management for Kubernetes GlobalHub

Open source Prometheus servers and exporters are leaking plaintext passwords and tokens, along with API addresses of internal locations.

### Impact [Impersonation](https://kubernetes.io/docs/reference/access-authn-authz/authentication/#user-impersonation) is a feature of the Kubernetes API, allowing to override user information. As downstream project, kcp inherits this feature. As per the linked documentation a specific level of privilege (usually assigned to cluster admins) is required for impersonation. The vulnerability in kcp affects kcp installations in which users are granted the `cluster-admin` ClusterRole (or comparably high permission levels that grant impersonation access; the verb in question is `impersonate`) within their respective workspaces. As kcp builds around self-service confined within workspaces, most installations would likely grant such workspace access to their users. Such users can impersonate special global administrative groups, which circumvent parts of the authorizer chains, e.g. [maximal permission policies](https://docs.kcp.io/kcp/v0.26/concepts/apis/exporting-apis/#maximal-permission-po...