| CVE |
Vendors |
Products |
Updated |
CVSS v3.1 |
| xszyou Fay 4.3.1 contains a remote code execution vulnerability in its MCP STDIO server management and command execution handling. A remote attacker can access the publicly exposed MCP management interface and configure an MCP STDIO server with attacker-controlled commands and parameters, resulting in execution of arbitrary commands on the server. Successful exploitation allows arbitrary command execution within the context of the Fay service. |
| LiteLLM 1.18.10 contains a remote code execution vulnerability in its MCP server creation functionality. The application allows users to add MCP servers via a JSON configuration specifying arbitrary command and args values. LiteLLM executes these values on the host without validation, enabling attackers to run arbitrary operating system commands. Successful exploitation may result in remote code execution with the privileges of the LiteLLM process. |
| stoatchat before 0.13.5 contains an unauthenticated server-side request forgery vulnerability in the /proxy and /embed endpoints that accept arbitrary URLs without DNS resolution filtering or private IP range validation. Attackers can enumerate internal services, fingerprint applications, and reach instance metadata endpoints by supplying malicious URLs or leveraging redirect chains to access internal infrastructure. |
| o
CVE-2026-40957 is a frameable content
vulnerability in the Secure Access server login page prior to 14.55. Attackers
with control of a malicious web site could use it to potentially steal
credentials from an unwary administrator. |
| CVE-2026-40953 is a heap overflow in the
certificate parsing function of Secure Access clients prior to 14.55. Attackers
with local access and administrator permissions can create a denial of service
attack against the client over which they have control. |
| CVE-2026-40954
is an integer underflow vulnerability in the traffic parsing function of Secure
Access clients prior to 14.55. Attackers with intimate knowledge of and total
control over the tunnel protocol can create a non-persistent DoS against their
client |
| Permissive Cross-domain Security Policy with Untrusted Domains in ASUS GameSDK allows a remote user to obtain a local user’s NTLM hash by convincing the user to visit a crafted web page that sends a request containing a UNC path to the application’s local service endpoint. This can result in information disclosure or data tampering, may cause GameSDK to become unavailable, and may also enable access to the victim’s information on other services.
Refer to the ' Security Update for ASUS GameSDK ' section on the ASUS Security Advisory for more information. |
| Untrusted Pointer Dereference in ASUS System Control Interface v3, ASUS System Control Interface, and ASUS Business Manager allows a local administrator to perform arbitrary physical memory read and write operations via crafted IOCTL requests to the driver, bypassing OS-enforced memory protections.
Refer to the '
Security Update for ASUS System Control Interface ' section on the ASUS Security Advisory for more information. |
| CVE-2026-40955 is an integer underflow
vulnerability in the traffic parsing function of Secure Access clients prior to
14.55. Attackers with intimate knowledge of and total control over the tunnel
protocol can create a non-persistent DoS against their client. |
| CVE-2026-40956
is a memory disclosure vulnerability in Secure Access client versions prior to 14.55.
Attackers with intimate knowledge of and total control over the tunnel protocol
can cause a small amount of random memory to leak. |
| CVE-2026-40958
is a input validation error in Secure Access clients prior to 14.55. Attackers
with intimate knowledge of and total control over the tunnel protocol can
create a non-persistent DoS against their client. |
| CVE-2026-33443 is a memory management error in
Secure Access servers prior to 14.55. Attackers with an intimate knowledge of
and total control over the tunnel protocol can create a persistent DoS against
the server. |
| CVE-2026-33444 is a memory management
vulnerability in Secure Access servers prior to 14.55. Attackers with intimate
knowledge of and total control over the tunnel protocol can create a
non-persistent DoS against the server. |
| CVE-2026-33445 is a memory management
vulnerability in Secure Access servers prior to 14.55. Attackers with an
intimate knowledge of and total control over the tunnel protocol can create a
persistent DoS against the server. |
| CVE-2026-55398
is a memory management vulnerability in Secure Access clients and servers prior
to 14.55. Attackers with intimate knowledge of and total control over the
tunnel protocol can create a non-persistent DoS against the server. |
| CVE-2026-55399 is a resource exhaustion
vulnerability in the Secure Access publisher prior to 14.55. Attackers with
valid credentials to the Secure Access tunnel can create a non-persistent DoS
against the publisher. |
| CVE-2026-40952 is a privilege misconfiguration
in the Secure Access installer for the Windows client and server prior to
version 14.55. Attackers with local access to the client or server can use it
to elevate privileges to Administrator when Secure Access is installed in a
non-default location. |
| DataEase is an open source data visualization and analysis tool. Prior to 2.10.23, DataEase SQL-type datasets store attacker-controlled SQL variable defaultValue entries such as ${var} and SqlparserUtils.handleVariableDefaultValue() inserts them with String.replace() without escaping or parameterization, causing stored SQL injection whenever a user with dataset read permission accesses the dataset. This issue is fixed in version 2.10.23. |
| Cilium is a networking, observability, and security solution. From 1.19.0 to 1.19.4, standard Kubernetes NetworkPolicy specifications using CIDR-based ipBlock rules without pod or namespace selectors erroneously generate a wildcard namespace allow rule when Cilium is configured with a custom clusterName rather than the default any value. The parser incorrectly instantiates a pod selector on selectorless peer definitions, allowing traffic from other workloads in the same namespace as the subject of the policy. This issue is fixed in version 1.19.5. |
| The MCP Python SDK, called mcp on PyPI, is a Python implementation of the Model Context Protocol (MCP). From 1.23.0 until 1.27.2, default handlers installed by server.experimental.enable_tasks() for tasks/list, tasks/get, tasks/result, and tasks/cancel operate only on task identifiers without recording the session that created each task, allowing any connected client to enumerate, read results from, consume messages for, or cancel other clients' tasks. This issue is fixed in version 1.27.2. |