| CVE |
Vendors |
Products |
Updated |
CVSS v3.1 |
| A vulnerability classified as problematic was found in FNKvision FNK-GU2 up to 40.1.7. Affected by this vulnerability is an unknown functionality of the file /etc/shadow of the component MD5. The manipulation leads to risky cryptographic algorithm. It is possible to launch the attack on the physical device. The complexity of an attack is rather high. The exploitation appears to be difficult. The exploit has been disclosed to the public and may be used. |
| Missing cryptographic key commitment in the Amazon S3 Encryption Client for .NET may allow a user with write access to the S3 bucket to introduce a new EDK that decrypts to different plaintext when the encrypted data key is stored in an "instruction file" instead of S3's metadata record.
To mitigate this issue, upgrade Amazon S3 Encryption Client for .NET to version 3.2.0 or later. |
| sftpgo is a full-featured and highly configurable event-driven file transfer solution. Server protocols: SFTP, HTTP/S, FTP/S, WebDAV. The OpenID Connect implementation allows authenticated users to brute force session cookies and thereby gain access to other users' data, since the cookies are generated predictably using the xid library and are therefore unique but not cryptographically secure. This issue was fixed in version v2.6.4, where cookies are opaque and cryptographically secure strings. All users are advised to upgrade. There are no known workarounds for this vulnerability. |
| Missing cryptographic key commitment in the AWS SDK for PHP may allow a user with write access to the S3 bucket to introduce a new EDK that decrypts to different plaintext when the encrypted data key is stored in an "instruction file" instead of S3's metadata record.
To mitigate this issue, upgrade AWS SDK for PHP to version 3.368.0 or later |
| The server supports at least one cipher suite which is on the NCSC-NL list of cipher suites to be phased out, increasing the risk of cryptographic weaknesses. |
| During the initial setup of the device the user connects to an access
point broadcast by the Sight Bulb Pro. During the negotiation, AES
Encryption keys are passed in cleartext. If captured, an attacker may be
able to decrypt communications between the management app and the Sight
Bulb Pro which may include sensitive information such as network
credentials. |
| A security vulnerability has been detected in FNKvision Y215 CCTV Camera 10.194.120.40. This issue affects the function crypt of the file /etc/passwd. The manipulation leads to use of weak hash. The attack can only be performed from a local environment. The complexity of an attack is rather high. The exploitability is assessed as difficult. The exploit has been disclosed publicly and may be used. The vendor was contacted early about this disclosure but did not respond in any way. |
| ESPTouch is a connection protocol for internet of things devices. In the ESPTouchV2 protocol, while there is an option to use a custom AES key, there is no option to set the IV (Initialization Vector) prior to versions 5.3.2, 5.2.4, 5.1.6, and 5.0.8. The IV is set to zero and remains constant throughout the product's lifetime. In AES/CBC mode, if the IV is not properly initialized, the encrypted output becomes deterministic, leading to potential data leakage. To address the aforementioned issues, the application generates a random IV when activating the AES key starting in versions 5.3.2, 5.2.4, 5.1.6, and 5.0.8. This IV is then transmitted along with the provision data to the provision device. The provision device has also been equipped with a parser for the AES IV. The upgrade is applicable for all applications and users of ESPTouch v2 component from ESP-IDF. As it is implemented in the ESP Wi-Fi stack, there is no workaround for the user to fix the application layer without upgrading the underlying firmware. |
| The use of a broken or risky cryptographic algorithm was discovered in firmware version 3.60 of the Click Plus PLC. The vulnerability relies on the fact that the software uses an insecure implementation of the RSA encryption algorithm. |
| An unauthenticated remote attacker could exploit the used, insecure TLS 1.0 and TLS 1.1 protocols to intercept and manipulate encrypted communications between the Com-Server and connected systems. |
| A flaw was found in GnuTLS. The Minerva attack is a cryptographic vulnerability that exploits deterministic behavior in systems like GnuTLS, leading to side-channel leaks. In specific scenarios, such as when using the GNUTLS_PRIVKEY_FLAG_REPRODUCIBLE flag, it can result in a noticeable step in nonce size from 513 to 512 bits, exposing a potential timing side-channel. |
| A vulnerability has been identified in RUGGEDCOM i800 (All versions), RUGGEDCOM i801 (All versions), RUGGEDCOM i802 (All versions), RUGGEDCOM i803 (All versions), RUGGEDCOM M2100 (All versions), RUGGEDCOM M2200 (All versions), RUGGEDCOM M969 (All versions), RUGGEDCOM RMC30 (All versions), RUGGEDCOM RMC8388 V4.X (All versions), RUGGEDCOM RMC8388 V5.X (All versions < V5.10.0), RUGGEDCOM RP110 (All versions), RUGGEDCOM RS1600 (All versions), RUGGEDCOM RS1600F (All versions), RUGGEDCOM RS1600T (All versions), RUGGEDCOM RS400 (All versions), RUGGEDCOM RS401 (All versions), RUGGEDCOM RS416 (All versions), RUGGEDCOM RS416P (All versions), RUGGEDCOM RS416Pv2 V4.X (All versions), RUGGEDCOM RS416Pv2 V5.X (All versions < V5.10.0), RUGGEDCOM RS416v2 V4.X (All versions), RUGGEDCOM RS416v2 V5.X (All versions < V5.10.0), RUGGEDCOM RS8000 (All versions), RUGGEDCOM RS8000A (All versions), RUGGEDCOM RS8000H (All versions), RUGGEDCOM RS8000T (All versions), RUGGEDCOM RS900 (All versions), RUGGEDCOM RS900 (32M) V4.X (All versions), RUGGEDCOM RS900 (32M) V5.X (All versions < V5.10.0), RUGGEDCOM RS900G (All versions), RUGGEDCOM RS900G (32M) V4.X (All versions), RUGGEDCOM RS900G (32M) V5.X (All versions < V5.10.0), RUGGEDCOM RS900GP (All versions), RUGGEDCOM RS900L (All versions), RUGGEDCOM RS900M-GETS-C01 (All versions), RUGGEDCOM RS900M-GETS-XX (All versions), RUGGEDCOM RS900M-STND-C01 (All versions), RUGGEDCOM RS900M-STND-XX (All versions), RUGGEDCOM RS900W (All versions), RUGGEDCOM RS910 (All versions), RUGGEDCOM RS910L (All versions), RUGGEDCOM RS910W (All versions), RUGGEDCOM RS920L (All versions), RUGGEDCOM RS920W (All versions), RUGGEDCOM RS930L (All versions), RUGGEDCOM RS930W (All versions), RUGGEDCOM RS940G (All versions), RUGGEDCOM RS969 (All versions), RUGGEDCOM RSG2100 (All versions), RUGGEDCOM RSG2100 (32M) V4.X (All versions), RUGGEDCOM RSG2100 (32M) V5.X (All versions < V5.10.0), RUGGEDCOM RSG2100P (All versions), RUGGEDCOM RSG2100P (32M) V4.X (All versions), RUGGEDCOM RSG2100P (32M) V5.X (All versions < V5.10.0), RUGGEDCOM RSG2200 (All versions), RUGGEDCOM RSG2288 V4.X (All versions), RUGGEDCOM RSG2288 V5.X (All versions < V5.10.0), RUGGEDCOM RSG2300 V4.X (All versions), RUGGEDCOM RSG2300 V5.X (All versions < V5.10.0), RUGGEDCOM RSG2300P V4.X (All versions), RUGGEDCOM RSG2300P V5.X (All versions < V5.10.0), RUGGEDCOM RSG2488 V4.X (All versions), RUGGEDCOM RSG2488 V5.X (All versions < V5.10.0), RUGGEDCOM RSG907R (All versions < V5.10.0), RUGGEDCOM RSG908C (All versions < V5.10.0), RUGGEDCOM RSG909R (All versions < V5.10.0), RUGGEDCOM RSG910C (All versions < V5.10.0), RUGGEDCOM RSG920P V4.X (All versions), RUGGEDCOM RSG920P V5.X (All versions < V5.10.0), RUGGEDCOM RSL910 (All versions < V5.10.0), RUGGEDCOM RST2228 (All versions < V5.10.0), RUGGEDCOM RST2228P (All versions < V5.10.0), RUGGEDCOM RST916C (All versions < V5.10.0), RUGGEDCOM RST916P (All versions < V5.10.0). The affected products support insecure cryptographic algorithms. An attacker could leverage these legacy algorithms to achieve a man-in-the-middle attack or impersonate communicating parties. |
| Missing cryptographic key commitment in the Amazon S3 Encryption Client for Go may allow a user with write access to the S3 bucket to introduce a new EDK that decrypts to different plaintext when the encrypted data key is stored in an "instruction file" instead of S3's metadata record.
To mitigate this issue, upgrade Amazon S3 Encryption Client for Go to version 4.0 or later. |
| The device is observed to accept deprecated TLS protocols, increasing the risk of cryptographic weaknesses. |
| Missing cryptographic key commitment in the AWS SDK for Ruby may allow a user with write access to the S3 bucket to introduce a new EDK that decrypts to different plaintext when the encrypted data key is stored in an "instruction file" instead of S3's metadata record.
To mitigate this issue, upgrade AWS SDK for Ruby to version 1.208.0 or later. |
| Polkadot Frontier is an Ethereum and EVM compatibility layer for Polkadot and Substrate. In versions prior to commit 36f70d1, the Curve25519Add and Curve25519ScalarMul precompiles incorrectly handle invalid Ristretto point representations. Instead of returning an error, they silently treat invalid input bytes as the Ristretto identity element, leading to potentially incorrect cryptographic results. This is fixed in commit 36f70d1. |
| Missing cryptographic key commitment in the Amazon S3 Encryption Client for Java may allow a user with write access to the S3 bucket to introduce a new EDK that decrypts to different plaintext when the encrypted data key is stored in an "instruction file" instead of S3's metadata record.
To mitigate this issue, upgrade Amazon S3 Encryption Client for Java to version 4.0.0 or later. |
| Configured cipher preference order not preserved vulnerability in Apache Tomcat.
This issue affects Apache Tomcat: from 11.0.16 through 11.0.18, from 10.1.51 through 10.1.52, from 9.0.114 through 9.0.115.
Users are recommended to upgrade to version 11.0.20, 10.1.53 or 9.0.116, which fix the issue. |
| An issue was discovered in the ALFA Windows 10 driver 6.1316.1209 for AWUS036H. The WEP, WPA, WPA2, and WPA3 implementations accept plaintext frames in a protected Wi-Fi network. An adversary can abuse this to inject arbitrary data frames independent of the network configuration. |
| The 802.11 standard that underpins Wi-Fi Protected Access (WPA, WPA2, and WPA3) and Wired Equivalent Privacy (WEP) doesn't require that the A-MSDU flag in the plaintext QoS header field is authenticated. Against devices that support receiving non-SSP A-MSDU frames (which is mandatory as part of 802.11n), an adversary can abuse this to inject arbitrary network packets. |
