| CVE |
Vendors |
Products |
Updated |
CVSS v3.1 |
| A vulnerability in the APIs of HPE Aruba Networking Private 5G Core could potentially expose sensitive information to unauthorized users.
A successful exploitation could allow an attacker to iteratively navigate through the filesystem and ultimately download protected system files containing sensitive information. |
| matrix-rust-sdk is an implementation of a Matrix client-server library in Rust. matrix-sdk-crypto since version 0.8.0 and up to 0.11.0 does not correctly validate the sender of an encrypted event. Accordingly, a malicious homeserver operator can modify events served to clients, making those events appear to the recipient as if they were sent by another user. This vulnerability is fixed in 0.11.1 and 0.12.0. |
| Due to a Cross-Site Scripting vulnerability in SAP NetWeaver (ABAP Keyword Documentation), an unauthenticated attacker could inject malicious JavaScript into a web page through an unprotected parameter. When a victim accesses the affected page, the script executes in their browser, providing the attacker limited access to restricted information. The vulnerability does not affect data integrity or availability and operates entirely within the context of the client's browser. |
| CWE-79: Improper Neutralization of Input During Web Page Generation ('Cross-site Scripting') vulnerability
exists impacting configuration file paths that could cause an unvalidated data injected by authenticated
malicious user leading to modify or read data in a victim’s browser. |
| A vulnerability has been identified in RUGGEDCOM RST2428P (6GK6242-6PA00) (All versions < V3.1), SCALANCE XC316-8 (6GK5324-8TS00-2AC2) (All versions < V3.1), SCALANCE XC324-4 (6GK5328-4TS00-2AC2) (All versions < V3.1), SCALANCE XC324-4 EEC (6GK5328-4TS00-2EC2) (All versions < V3.1), SCALANCE XC332 (6GK5332-0GA00-2AC2) (All versions < V3.1), SCALANCE XC416-8 (6GK5424-8TR00-2AC2) (All versions < V3.1), SCALANCE XC424-4 (6GK5428-4TR00-2AC2) (All versions < V3.1), SCALANCE XC432 (6GK5432-0GR00-2AC2) (All versions < V3.1), SCALANCE XCH328 (6GK5328-4TS01-2EC2) (All versions < V3.1), SCALANCE XCM324 (6GK5324-8TS01-2AC2) (All versions < V3.1), SCALANCE XCM328 (6GK5328-4TS01-2AC2) (All versions < V3.1), SCALANCE XCM332 (6GK5332-0GA01-2AC2) (All versions < V3.1), SCALANCE XR302-32 (6GK5334-5TS00-2AR3) (All versions < V3.1), SCALANCE XR302-32 (6GK5334-5TS00-3AR3) (All versions < V3.1), SCALANCE XR302-32 (6GK5334-5TS00-4AR3) (All versions < V3.1), SCALANCE XR322-12 (6GK5334-3TS00-2AR3) (All versions < V3.1), SCALANCE XR322-12 (6GK5334-3TS00-3AR3) (All versions < V3.1), SCALANCE XR322-12 (6GK5334-3TS00-4AR3) (All versions < V3.1), SCALANCE XR326-8 (6GK5334-2TS00-2AR3) (All versions < V3.1), SCALANCE XR326-8 (6GK5334-2TS00-3AR3) (All versions < V3.1), SCALANCE XR326-8 (6GK5334-2TS00-4AR3) (All versions < V3.1), SCALANCE XR326-8 EEC (6GK5334-2TS00-2ER3) (All versions < V3.1), SCALANCE XR502-32 (6GK5534-5TR00-2AR3) (All versions < V3.1), SCALANCE XR502-32 (6GK5534-5TR00-3AR3) (All versions < V3.1), SCALANCE XR502-32 (6GK5534-5TR00-4AR3) (All versions < V3.1), SCALANCE XR522-12 (6GK5534-3TR00-2AR3) (All versions < V3.1), SCALANCE XR522-12 (6GK5534-3TR00-3AR3) (All versions < V3.1), SCALANCE XR522-12 (6GK5534-3TR00-4AR3) (All versions < V3.1), SCALANCE XR526-8 (6GK5534-2TR00-2AR3) (All versions < V3.1), SCALANCE XR526-8 (6GK5534-2TR00-3AR3) (All versions < V3.1), SCALANCE XR526-8 (6GK5534-2TR00-4AR3) (All versions < V3.1), SCALANCE XRH334 (24 V DC, 8xFO, CC) (6GK5334-2TS01-2ER3) (All versions < V3.1), SCALANCE XRM334 (230 V AC, 12xFO) (6GK5334-3TS01-3AR3) (All versions < V3.1), SCALANCE XRM334 (230 V AC, 8xFO) (6GK5334-2TS01-3AR3) (All versions < V3.1), SCALANCE XRM334 (230V AC, 2x10G, 24xSFP, 8xSFP+) (6GK5334-5TS01-3AR3) (All versions < V3.1), SCALANCE XRM334 (24 V DC, 12xFO) (6GK5334-3TS01-2AR3) (All versions < V3.1), SCALANCE XRM334 (24 V DC, 8xFO) (6GK5334-2TS01-2AR3) (All versions < V3.1), SCALANCE XRM334 (24V DC, 2x10G, 24xSFP, 8xSFP+) (6GK5334-5TS01-2AR3) (All versions < V3.1), SCALANCE XRM334 (2x230 V AC, 12xFO) (6GK5334-3TS01-4AR3) (All versions < V3.1), SCALANCE XRM334 (2x230 V AC, 8xFO) (6GK5334-2TS01-4AR3) (All versions < V3.1), SCALANCE XRM334 (2x230V AC, 2x10G, 24xSFP, 8xSFP+) (6GK5334-5TS01-4AR3) (All versions < V3.1). Affected devices contain an incorrect authorization check vulnerability. This could allow an authenticated remote attacker with "guest" role to invoke an internal "do system" command which exceeds their privileges. This command allows the execution of certain low-risk actions, the most critical of which is clearing the local system log. |
| A privilege escalation vulnerability may enable a service account to elevate its privileges.
The sudo rules configured for a local service account were excessively permissive, potentially allowing administrative access if a malicious actor could execute arbitrary commands as that account.
It is important to note that no such vector has been identified in this instance. |
| Improper Control of Filename for Include/Require Statement in PHP Program ('PHP Remote File Inclusion') vulnerability in LoftOcean TinySalt allows PHP Local File Inclusion.This issue affects TinySalt: from n/a before 3.10.0. |
| SAP S/4HANA (Bank Account Application) does not perform necessary authorization checks. This allows an authenticated 'approver' user to delete attachment from bank account application of other user, leading to a low impact on integrity, with no impact on the confidentiality of the data or the availability of the application. |
| Due to an undocumented active bluetooth stack on products delivered within the period 01.01.2024 to 09.05.2025 fingerprinting is possible by an unauthenticated adjacent attacker. |
| In AMD Versal Adaptive SoC devices, the lack of address validation when executing PLM runtime services through the PLM firmware can allow access to isolated or protected memory spaces, resulting in the loss of integrity and confidentiality. |
| Improper input validation performed during the authentication process of FlashBlade could lead to a system Denial of Service. |
| A critical security vulnerability exists in remote cache extensions for common build systems utilizing bucket-based remote cache (such as those using Amazon S3, Google Cloud Storage, or similar object storage) that allows any contributor with pull request privileges to inject compromised artifacts from an untrusted environment into trusted production environments without detection.
The vulnerability exploits a fundamental design flaw in the "first-to-cache wins" principle, where artifacts built in untrusted environments (feature branches, pull requests) can poison the cache used by trusted environments (protected branches, production deployments).
This attack bypasses all traditional security measures including encryption, access controls, and checksum validation because the poisoning occurs during the artifact construction phase, before any security measures are applied. |
| The ArchiverSpaApi ASP.NET application uses a hard-coded JWT signing key. An unauthenticated remote attacker can generate and use a verifiable JWT token to access protected ArchiverSpaApi URL endpoints. |
| An arbitrary write vulnerability in Microsoft signed UEFI firmware allows for code execution of untrusted software. This allows an attacker to control its value, leading to arbitrary memory writes, including modification of critical firmware settings stored in NVRAM. Exploiting this vulnerability could enable security bypasses, persistence mechanisms, or full system compromise. |
| The macOS Rocket.Chat application is affected by a vulnerability that allows bypassing Transparency, Consent, and Control (TCC) policies, enabling the exploitation or abuse of permissions specified in its entitlements (e.g., microphone, camera, automation, network client). Since Rocket.Chat was not signed with the Hardened Runtime nor set to enforce Library Validation, it is vulnerable to DYLIB injection attacks, which can lead to unauthorized actions or escalation of permissions. Consequently, an attacker gains capabilities that are not permitted by default under the Sandbox and its application profile. |
| Cursor is a code editor built for programming with AI. Prior to 0.51.0, by default, the setting json.schemaDownload.enable was set to True. This means that by writing a JSON file, an attacker can trigger an arbitrary HTTP GET request that does not require user confirmation. Since the Cursor Agent can edit JSON files, this means a malicious agent, for example, after a prompt injection attack already succeeded, could trigger a GET request to an attacker controlled URL, potentially exfiltrating other data the agent may have access to. This vulnerability is fixed in 0.51.0. |
| ClipShare is a lightweight and cross-platform tool for clipboard sharing. Prior to 3.8.5, ClipShare Server for Windows uses the default Windows DLL search order and loads system libraries like CRYPTBASE.dll and WindowsCodecs.dll from its own directory before the system path. A local, non-privileged user who can write to the folder containing clip_share.exe can place malicious DLLs there, leading to arbitrary code execution in the context of the server, and, if launched by an Administrator (or another elevated user), it results in a reliable local privilege escalation. This vulnerability is fixed in 3.8.5. |
| The Zotpress plugin for WordPress is vulnerable to Stored Cross-Site Scripting via the ‘nickname’ parameter in all versions up to, and including, 7.3.15 due to insufficient input sanitization and output escaping. This makes it possible for authenticated attackers, with Author-level access and above, to inject arbitrary web scripts in pages that will execute whenever a user accesses an injected page. |
| Proxy-Authorization and Proxy-Authenticate headers persisted on cross-origin redirects potentially leaking sensitive information. |
| CryptX for Perl before version 0.065 contains a dependency that may be susceptible to malformed unicode.
CryptX embeds the tomcrypt library. The versions of that library in CryptX before 0.065 may be susceptible to CVE-2019-17362. |
