Filtered by vendor Redhat
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Total
22981 CVE
| CVE | Vendors | Products | Updated | CVSS v3.1 |
|---|---|---|---|---|
| CVE-2019-11459 | 6 Canonical, Debian, Fedoraproject and 3 more | 9 Ubuntu Linux, Debian Linux, Fedora and 6 more | 2024-11-21 | 5.5 Medium |
| The tiff_document_render() and tiff_document_get_thumbnail() functions in the TIFF document backend in GNOME Evince through 3.32.0 did not handle errors from TIFFReadRGBAImageOriented(), leading to uninitialized memory use when processing certain TIFF image files. | ||||
| CVE-2019-11358 | 11 Backdropcms, Debian, Drupal and 8 more | 114 Backdrop, Debian Linux, Drupal and 111 more | 2024-11-21 | 6.1 Medium |
| jQuery before 3.4.0, as used in Drupal, Backdrop CMS, and other products, mishandles jQuery.extend(true, {}, ...) because of Object.prototype pollution. If an unsanitized source object contained an enumerable __proto__ property, it could extend the native Object.prototype. | ||||
| CVE-2019-11356 | 5 Canonical, Cyrus, Debian and 2 more | 8 Ubuntu Linux, Imap, Debian Linux and 5 more | 2024-11-21 | 9.8 Critical |
| The CalDAV feature in httpd in Cyrus IMAP 2.5.x through 2.5.12 and 3.0.x through 3.0.9 allows remote attackers to execute arbitrary code via a crafted HTTP PUT operation for an event with a long iCalendar property name. | ||||
| CVE-2019-11324 | 3 Canonical, Python, Redhat | 4 Ubuntu Linux, Urllib3, Enterprise Linux and 1 more | 2024-11-21 | N/A |
| The urllib3 library before 1.24.2 for Python mishandles certain cases where the desired set of CA certificates is different from the OS store of CA certificates, which results in SSL connections succeeding in situations where a verification failure is the correct outcome. This is related to use of the ssl_context, ca_certs, or ca_certs_dir argument. | ||||
| CVE-2019-11281 | 4 Debian, Fedoraproject, Pivotal Software and 1 more | 5 Debian Linux, Fedora, Rabbitmq and 2 more | 2024-11-21 | 4.8 Medium |
| Pivotal RabbitMQ, versions prior to v3.7.18, and RabbitMQ for PCF, versions 1.15.x prior to 1.15.13, versions 1.16.x prior to 1.16.6, and versions 1.17.x prior to 1.17.3, contain two components, the virtual host limits page, and the federation management UI, which do not properly sanitize user input. A remote authenticated malicious user with administrative access could craft a cross site scripting attack that would gain access to virtual hosts and policy management information. | ||||
| CVE-2019-11255 | 2 Kubernetes, Redhat | 5 External-provisioner, External-resizer, External-snapshotter and 2 more | 2024-11-21 | 4.8 Medium |
| Improper input validation in Kubernetes CSI sidecar containers for external-provisioner (<v0.4.3, <v1.0.2, v1.1, <v1.2.2, <v1.3.1), external-snapshotter (<v0.4.2, <v1.0.2, v1.1, <1.2.2), and external-resizer (v0.1, v0.2) could result in unauthorized PersistentVolume data access or volume mutation during snapshot, restore from snapshot, cloning and resizing operations. | ||||
| CVE-2019-11254 | 2 Kubernetes, Redhat | 2 Kubernetes, Openshift | 2024-11-21 | 6.5 Medium |
| The Kubernetes API Server component in versions 1.1-1.14, and versions prior to 1.15.10, 1.16.7 and 1.17.3 allows an authorized user who sends malicious YAML payloads to cause the kube-apiserver to consume excessive CPU cycles while parsing YAML. | ||||
| CVE-2019-11253 | 2 Kubernetes, Redhat | 5 Kubernetes, Openshift, Openshift Container Platform and 2 more | 2024-11-21 | 7.5 High |
| Improper input validation in the Kubernetes API server in versions v1.0-1.12 and versions prior to v1.13.12, v1.14.8, v1.15.5, and v1.16.2 allows authorized users to send malicious YAML or JSON payloads, causing the API server to consume excessive CPU or memory, potentially crashing and becoming unavailable. Prior to v1.14.0, default RBAC policy authorized anonymous users to submit requests that could trigger this vulnerability. Clusters upgraded from a version prior to v1.14.0 keep the more permissive policy by default for backwards compatibility. | ||||
| CVE-2019-11252 | 2 Kubernetes, Redhat | 2 Kubernetes, Openshift | 2024-11-21 | 5.9 Medium |
| The Kubernetes kube-controller-manager in versions v1.0-v1.17 is vulnerable to a credential leakage via error messages in mount failure logs and events for AzureFile and CephFS volumes. | ||||
| CVE-2019-11251 | 2 Kubernetes, Redhat | 2 Kubernetes, Openshift | 2024-11-21 | 4.8 Medium |
| The Kubernetes kubectl cp command in versions 1.1-1.12, and versions prior to 1.13.11, 1.14.7, and 1.15.4 allows a combination of two symlinks provided by tar output of a malicious container to place a file outside of the destination directory specified in the kubectl cp invocation. This could be used to allow an attacker to place a nefarious file using a symlink, outside of the destination tree. | ||||
| CVE-2019-11250 | 2 Kubernetes, Redhat | 3 Kubernetes, Openshift, Openshift Container Platform | 2024-11-21 | 6.5 Medium |
| The Kubernetes client-go library logs request headers at verbosity levels of 7 or higher. This can disclose credentials to unauthorized users via logs or command output. Kubernetes components (such as kube-apiserver) prior to v1.16.0, which make use of basic or bearer token authentication, and run at high verbosity levels, are affected. | ||||
| CVE-2019-11249 | 2 Kubernetes, Redhat | 3 Kubernetes, Openshift, Openshift Container Platform | 2024-11-21 | 6.5 Medium |
| The kubectl cp command allows copying files between containers and the user machine. To copy files from a container, Kubernetes runs tar inside the container to create a tar archive, copies it over the network, and kubectl unpacks it on the user’s machine. If the tar binary in the container is malicious, it could run any code and output unexpected, malicious results. An attacker could use this to write files to any path on the user’s machine when kubectl cp is called, limited only by the system permissions of the local user. Kubernetes affected versions include versions prior to 1.13.9, versions prior to 1.14.5, versions prior to 1.15.2, and versions 1.1, 1.2, 1.4, 1.4, 1.5, 1.6, 1.7, 1.8, 1.9, 1.10, 1.11, 1.12. | ||||
| CVE-2019-11247 | 2 Kubernetes, Redhat | 3 Kubernetes, Openshift, Openshift Container Platform | 2024-11-21 | 8.1 High |
| The Kubernetes kube-apiserver mistakenly allows access to a cluster-scoped custom resource if the request is made as if the resource were namespaced. Authorizations for the resource accessed in this manner are enforced using roles and role bindings within the namespace, meaning that a user with access only to a resource in one namespace could create, view update or delete the cluster-scoped resource (according to their namespace role privileges). Kubernetes affected versions include versions prior to 1.13.9, versions prior to 1.14.5, versions prior to 1.15.2, and versions 1.7, 1.8, 1.9, 1.10, 1.11, 1.12. | ||||
| CVE-2019-11246 | 2 Kubernetes, Redhat | 2 Kubernetes, Openshift | 2024-11-21 | 6.5 Medium |
| The kubectl cp command allows copying files between containers and the user machine. To copy files from a container, Kubernetes runs tar inside the container to create a tar archive, copies it over the network, and kubectl unpacks it on the user’s machine. If the tar binary in the container is malicious, it could run any code and output unexpected, malicious results. An attacker could use this to write files to any path on the user’s machine when kubectl cp is called, limited only by the system permissions of the local user. Kubernetes affected versions include versions prior to 1.12.9, versions prior to 1.13.6, versions prior to 1.14.2, and versions 1.1, 1.2, 1.4, 1.4, 1.5, 1.6, 1.7, 1.8, 1.9, 1.10, 1.11. | ||||
| CVE-2019-11244 | 3 Kubernetes, Netapp, Redhat | 4 Kubernetes, Trident, Openshift and 1 more | 2024-11-21 | 5.0 Medium |
| In Kubernetes v1.8.x-v1.14.x, schema info is cached by kubectl in the location specified by --cache-dir (defaulting to $HOME/.kube/http-cache), written with world-writeable permissions (rw-rw-rw-). If --cache-dir is specified and pointed at a different location accessible to other users/groups, the written files may be modified by other users/groups and disrupt the kubectl invocation. | ||||
| CVE-2019-11236 | 2 Python, Redhat | 4 Urllib3, Ansible Tower, Enterprise Linux and 1 more | 2024-11-21 | N/A |
| In the urllib3 library through 1.24.1 for Python, CRLF injection is possible if the attacker controls the request parameter. | ||||
| CVE-2019-11235 | 5 Canonical, Fedoraproject, Freeradius and 2 more | 10 Ubuntu Linux, Fedora, Freeradius and 7 more | 2024-11-21 | N/A |
| FreeRADIUS before 3.0.19 mishandles the "each participant verifies that the received scalar is within a range, and that the received group element is a valid point on the curve being used" protection mechanism, aka a "Dragonblood" issue, a similar issue to CVE-2019-9498 and CVE-2019-9499. | ||||
| CVE-2019-11234 | 4 Canonical, Fedoraproject, Freeradius and 1 more | 4 Ubuntu Linux, Fedora, Freeradius and 1 more | 2024-11-21 | N/A |
| FreeRADIUS before 3.0.19 does not prevent use of reflection for authentication spoofing, aka a "Dragonblood" issue, a similar issue to CVE-2019-9497. | ||||
| CVE-2019-11190 | 2 Linux, Redhat | 3 Linux Kernel, Enterprise Linux, Rhel Extras Rt | 2024-11-21 | N/A |
| The Linux kernel before 4.8 allows local users to bypass ASLR on setuid programs (such as /bin/su) because install_exec_creds() is called too late in load_elf_binary() in fs/binfmt_elf.c, and thus the ptrace_may_access() check has a race condition when reading /proc/pid/stat. | ||||
| CVE-2019-11139 | 4 Debian, Intel, Opensuse and 1 more | 117 Debian Linux, Xeon 3104, Xeon 3104 Firmware and 114 more | 2024-11-21 | 6.0 Medium |
| Improper conditions check in the voltage modulation interface for some Intel(R) Xeon(R) Scalable Processors may allow a privileged user to potentially enable denial of service via local access. | ||||