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Search Results (120 CVEs found)
| CVE | Vendors | Products | Updated | CVSS v3.1 |
|---|---|---|---|---|
| CVE-2025-13079 | 2 Popupbuilder, Wordpress | 2 Popup Builder – Create Highly Converting, Mobile Friendly Marketing Popups., Wordpress | 2026-04-21 | 5.3 Medium |
| The Popup Builder – Create highly converting, mobile friendly marketing popups. plugin for WordPress is vulnerable to authorization bypass in all versions up to, and including, 4.4.2. This is due to the plugin generating predictable unsubscribe tokens using deterministic data. This makes it possible for unauthenticated attackers to unsubscribe arbitrary subscribers from mailing lists via brute-forcing the unsubscribe token, granted they know the victim's email address | ||||
| CVE-2026-22705 | 1 Rustcrypto | 1 Signatures | 2026-04-18 | 6.4 Medium |
| RustCrypto: Signatures offers support for digital signatures, which provide authentication of data using public-key cryptography. Prior to version 0.1.0-rc.2, a timing side-channel was discovered in the Decompose algorithm which is used during ML-DSA signing to generate hints for the signature. This issue has been patched in version 0.1.0-rc.2. | ||||
| CVE-2026-24714 | 1 Netgear | 1 Eos Products | 2026-04-18 | N/A |
| Some end of service NETGEAR products provide "TelnetEnable" functionality, which allows a magic packet to activate telnet service on the box. | ||||
| CVE-2026-27017 | 1 Refraction-networking | 1 Utls | 2026-04-17 | 5.3 Medium |
| uTLS is a fork of crypto/tls, created to customize ClientHello for fingerprinting resistance while still using it for the handshake. Versions 1.6.0 through 1.8.0 contain a fingerprint mismatch with Chrome when using GREASE ECH, related to cipher suite selection. When Chrome selects the preferred cipher suite in the outer ClientHello and for ECH, it does so consistently based on hardware support—for example, if it prefers AES for the outer cipher suite, it also uses AES for ECH. However, the Chrome parrot in uTLS hardcodes AES preference for outer cipher suites but selects the ECH cipher suite randomly between AES and ChaCha20. This creates a 50% chance of selecting ChaCha20 for ECH while using AES for the outer cipher suite, a combination impossible in Chrome. This issue only affects GREASE ECH; in real ECH, Chrome selects the first valid cipher suite when AES is preferred, which uTLS handles correctly. This issue has been fixed in version 1.8.1. | ||||
| CVE-2023-3634 | 1 Festo | 24 Mse6-c2m-5000-fb36-d-m-rg-bar-m12l4-agd, Mse6-c2m-5000-fb36-d-m-rg-bar-m12l4-agd Firmware, Mse6-c2m-5000-fb36-d-m-rg-bar-m12l5-agd and 21 more | 2026-04-17 | 8.8 High |
| In products of the MSE6 product-family by Festo a remote authenticated, low privileged attacker could use functions of undocumented test mode which could lead to a complete loss of confidentiality, integrity and availability. | ||||
| CVE-2026-28419 | 1 Vim | 1 Vim | 2026-04-16 | 5.3 Medium |
| Vim is an open source, command line text editor. Prior to version 9.2.0075, a heap-based buffer underflow exists in Vim's Emacs-style tags file parsing logic. When processing a malformed tags file where a delimiter appears at the start of a line, Vim attempts to read memory immediately preceding the allocated buffer. Version 9.2.0075 fixes the issue. | ||||
| CVE-2026-26018 | 1 Coredns.io | 1 Coredns | 2026-04-16 | 7.5 High |
| CoreDNS is a DNS server that chains plugins. Prior to version 1.14.2, a denial of service vulnerability exists in CoreDNS's loop detection plugin that allows an attacker to crash the DNS server by sending specially crafted DNS queries. The vulnerability stems from the use of a predictable pseudo-random number generator (PRNG) for generating a secret query name, combined with a fatal error handler that terminates the entire process. This issue has been patched in version 1.14.2. | ||||
| CVE-2026-1485 | 1 Redhat | 1 Enterprise Linux | 2026-04-16 | 2.8 Low |
| A flaw was found in Glib's content type parsing logic. This buffer underflow vulnerability occurs because the length of a header line is stored in a signed integer, which can lead to integer wraparound for very large inputs. This results in pointer underflow and out-of-bounds memory access. Exploitation requires a local user to install or process a specially crafted treemagic file, which can lead to local denial of service or application instability. | ||||
| CVE-2025-36755 | 1 Cleverdisplay | 1 Blueone | 2026-04-15 | N/A |
| The CleverDisplay BlueOne hardware player is designed with its USB interfaces physically enclosed and inaccessible under normal operating conditions. Researchers demonstrated that, after cicumventing the device’s protective enclosure, it was possible to connect a USB keyboard and press ESC during boot to access the BIOS setup interface. BIOS settings could be viewed but not modified. This behavior slightly increases the attack surface by exposing internal system information (CWE-1244) once the enclosure is removed, but does not allow integrity or availability compromise under standard or tested configurations. | ||||
| CVE-2025-48508 | 1 Amd | 1 Radeon Pro V710 | 2026-04-15 | 6 Medium |
| Improper Hardware reset flow logic in the GPU GFX Hardware IP block could allow a privileged attacker in a guest virtual machine to control reset operation potentially causing host or GPU crash or reset resulting in denial of service. | ||||
| CVE-2024-24968 | 1 Redhat | 1 Openshift | 2026-04-15 | 5.3 Medium |
| Improper finite state machines (FSMs) in hardware logic in some Intel(R) Processors may allow an privileged user to potentially enable a denial of service via local access. | ||||
| CVE-2024-7011 | 2026-04-15 | 6.5 Medium | ||
| Sharp NEC Projectors (NP-CB4500UL, NP-CB4500WL, NP-CB4700UL, NP-P525UL, NP-P525UL+, NP-P525ULG, NP-P525ULJL, NP-P525WL, NP-P525WL+, NP-P525WLG, NP-P525WLJL, NP-CG6500UL, NP-CG6500WL, NP-CG6700UL, NP-P605UL, NP-P605UL+, NP-P605ULG, NP-P605ULJL, NP-CA4120X, NP-CA4160W, NP-CA4160X, NP-CA4200U, NP-CA4200W, NP-CA4202W, NP-CA4260X, NP-CA4300X, NP-CA4355X, NP-CD2100U, NP-CD2120X, NP-CD2300X, NP-CR2100X, NP-CR2170W, NP-CR2170X, NP-CR2200U, NP-CR2200W, NP-CR2280X, NP-CR2310X, NP-CR2350X, NP-MC302XG, NP-MC332WG, NP-MC332WJL, NP-MC342XG, NP-MC372X, NP-MC372XG, NP-MC382W, NP-MC382WG, NP-MC422XG, NP-ME342UG, NP-ME372W, NP-ME372WG, NP-ME372WJL, NP-ME382U, NP-ME382UG, NP-ME382UJL, NP-ME402X, NP-ME402XG, NP-ME402XJL, NP-CB4500XL, NP-CG6400UL, NP-CG6400WL, NP-CG6500XL, NP-PE455UL, NP-PE455ULG, NP-PE455WL, NP-PE455WLG, NP-PE505XLG, NP-CB4600U, NP-CF6600U, NP-P474U, NP-P554U, NP-P554U+, NP-P554UG, NP-P554UJL, NP-CG6600UL, NP-P547UL, NP-P547ULG, NP-P547ULJL, NP-P607UL+, NP-P627UL, NP-P627UL+, NP-P627ULG, NP-P627ULJL, NP-PV710UL-B, NP-PV710UL-B1, NP-PV710UL-W, NP-PV710UL-W+, NP-PV710UL-W1, NP-PV730UL-BJL, NP-PV730UL-WJL, NP-PV800UL-B, NP-PV800UL-B+, NP-PV800UL-B1, NP-PV800UL-BJL, NP-PV800UL-W, NP-PV800UL-W+, NP-PV800UL-W1, NP-PV800UL-WJL, NP-CA4200X, NP-CA4265X, NP-CA4300U, NP-CA4300W, NP-CA4305X, NP-CA4400X, NP-CD2125X, NP-CD2200W, NP-CD2300U, NP-CD2310X, NP-CR2105X, NP-CR2200X, NP-CR2205W, NP-CR2300U, NP-CR2300W, NP-CR2315X, NP-CR2400X, NP-MC333XG, NP-MC363XG, NP-MC393WJL, NP-MC423W, NP-MC423WG, NP-MC453X, NP-MC453X, NP-MC453XG, NP-MC453XJL, NP-ME383WG, NP-ME403U, NP-ME403UG, NP-ME403UJL, NP-ME423W, NP-ME423WG, NP-ME423WJL, NP-ME453X, NP-ME453XG, NP-CB4400USL, NP-CB4400WSL, NP-CB4510UL, NP-CB4510WL, NP-CB4510XL, NP-CB4550USL, NP-CB6700UL, NP-CG6510UL, NP-PE456USL, NP-PE456USLG, NP-PE456USLJL, NP-PE456WSLG, NP-PE506UL, NP-PE506ULG, NP-PE506ULJL, NP-PE506WL, NP-PE506WLG, NP-PE506WLJL) allows an attacker to cause a denial-of-service (DoS) condition via SNMP service. | ||||
| CVE-2025-22450 | 2026-04-15 | N/A | ||
| Inclusion of undocumented features issue exists in UD-LT2 firmware Ver.1.00.008_SE and earlier. A remote attacker may disable the LAN-side firewall function of the affected products, and open specific ports. | ||||
| CVE-2025-23301 | 1 Nvidia | 5 Dgx, Dgx-1, Dgx-2 and 2 more | 2026-04-15 | 4.2 Medium |
| NVIDIA HGX and DGX contain a vulnerability where a misconfiguration of the VBIOS could enable an attacker to set an unsafe debug access level. A successful exploit of this vulnerability might lead to denial of service. | ||||
| CVE-2025-23302 | 1 Nvidia | 5 Dgx, Dgx-1, Dgx-2 and 2 more | 2026-04-15 | 4.2 Medium |
| NVIDIA HGX and DGX contain a vulnerability where a misconfiguration of the LS10 could enable an attacker to set an unsafe debug access level. A successful exploit of this vulnerability might lead to denial of service. | ||||
| CVE-2025-23337 | 1 Nvidia | 6 Dgx, Dgx Gb200, Hgc and 3 more | 2026-04-15 | 6.7 Medium |
| NVIDIA HGX & DGX GB200, GB300, B300 contain a vulnerability in the HGX Management Controller (HMC) that may allow a malicious actor with administrative access on the BMC to access the HMC as an administrator. A successful exploit of this vulnerability may lead to code execution, denial of service, escalation of privileges, information disclosure, and data tampering. | ||||
| CVE-2017-20204 | 1 Dbltek | 1 Goip | 2026-04-15 | N/A |
| DBLTek GoIP devices (models GoIP 1, 4, 8, 16, and 32) contain an undocumented vendor backdoor in the Telnet administrative interface that allows remote authentication as an undocumented user via a proprietary challenge–response scheme which is fundamentally flawed. Because the challenge response can be computed from the challenge itself, a remote attacker can authenticate without knowledge of a secret and obtain a root shell on the device. This can lead to persistent remote code execution, full device compromise, and arbitrary control of the device and any managed services. The firmware used within these devices was updated in December 2016 to make this vulnerability more complex to exploit. However, it is unknown if DBLTek has taken steps to fully mitigate. | ||||
| CVE-2025-14505 | 1 Elliptic Project | 1 Elliptic | 2026-04-15 | 5.6 Medium |
| The ECDSA implementation of the Elliptic package generates incorrect signatures if an interim value of 'k' (as computed based on step 3.2 of RFC 6979 https://datatracker.ietf.org/doc/html/rfc6979 ) has leading zeros and is susceptible to cryptanalysis, which can lead to secret key exposure. This happens, because the byte-length of 'k' is incorrectly computed, resulting in its getting truncated during the computation. Legitimate transactions or communications will be broken as a result. Furthermore, due to the nature of the fault, attackers could–under certain conditions–derive the secret key, if they could get their hands on both a faulty signature generated by a vulnerable version of Elliptic and a correct signature for the same inputs. This issue affects all known versions of Elliptic (at the time of writing, versions less than or equal to 6.6.1). | ||||
| CVE-2025-29779 | 2026-04-15 | N/A | ||
| Post-Quantum Secure Feldman's Verifiable Secret Sharing provides a Python implementation of Feldman's Verifiable Secret Sharing (VSS) scheme. In versions 0.8.0b2 and prior, the `secure_redundant_execution` function in feldman_vss.py attempts to mitigate fault injection attacks by executing a function multiple times and comparing results. However, several critical weaknesses exist. Python's execution environment cannot guarantee true isolation between redundant executions, the constant-time comparison implementation in Python is subject to timing variations, the randomized execution order and timing provide insufficient protection against sophisticated fault attacks, and the error handling may leak timing information about partial execution results. These limitations make the protection ineffective against targeted fault injection attacks, especially from attackers with physical access to the hardware. A successful fault injection attack could allow an attacker to bypass the redundancy check mechanisms, extract secret polynomial coefficients during share generation or verification, force the acceptance of invalid shares during verification, and/or manipulate the commitment verification process to accept fraudulent commitments. This undermines the core security guarantees of the Verifiable Secret Sharing scheme. As of time of publication, no patched versions of Post-Quantum Secure Feldman's Verifiable Secret Sharing exist, but other mitigations are available. Long-term remediation requires reimplementing the security-critical functions in a lower-level language like Rust. Short-term mitigations include deploying the software in environments with physical security controls, increasing the redundancy count (from 5 to a higher number) by modifying the source code, adding external verification of cryptographic operations when possible, considering using hardware security modules (HSMs) for key operations. | ||||
| CVE-2025-32056 | 1 Bosch | 1 Infotainment System Ecu | 2026-04-15 | 4 Medium |
| The anti-theft protection mechanism can be bypassed by attackers due to weak response generation algorithms for the head unit. It is possible to reveal all 32 corresponding responses by sniffing CAN traffic or by pre-calculating the values, which allow to bypass the protection. First identified on Nissan Leaf ZE1 manufactured in 2020. | ||||