βΌ CVE-2023-45145 βΌ
π Read
via "National Vulnerability Database".
Redis is an in-memory database that persists on disk. On startup, Redis begins listening on a Unix socket before adjusting its permissions to the user-provided configuration. If a permissive umask(2) is used, this creates a race condition that enables, during a short period of time, another process to establish an otherwise unauthorized connection. This problem has existed since Redis 2.6.0-RC1. This issue has been addressed in Redis versions 7.2.2, 7.0.14 and 6.2.14. Users are advised to upgrade. For users unable to upgrade, it is possible to work around the problem by disabling Unix sockets, starting Redis with a restrictive umask, or storing the Unix socket file in a protected directory.π Read
via "National Vulnerability Database".
βΌ CVE-2023-34441 βΌ
π Read
via "National Vulnerability Database".
Baker Hughes Γ’β¬β Bently Nevada 3500 System TDI Firmware version 5.05 containsΓ a cleartext transmission vulnerability which could allow an attacker to steal the authentication secret from communication traffic to the device and reuse it for arbitrary requests.π Read
via "National Vulnerability Database".
βΌ CVE-2023-37503 βΌ
π Read
via "National Vulnerability Database".
HCL Compass is vulnerable to insecure password requirements. An attacker could easily guess the password and gain access to user accounts.π Read
via "National Vulnerability Database".
βΌ CVE-2023-5336 βΌ
π Read
via "National Vulnerability Database".
The iPanorama 360 Γ’β¬β WordPress Virtual Tour Builder plugin for WordPress is vulnerable to SQL Injection via the plugin's shortcode in versions up to, and including, 1.8.0 due to insufficient escaping on the user supplied parameter and lack of sufficient preparation on the existing SQL query. This makes it possible for authenticated attackers with contributor-level and above permissions to append additional SQL queries into already existing queries that can be used to extract sensitive information from the database.π Read
via "National Vulnerability Database".
βΌ CVE-2023-4645 βΌ
π Read
via "National Vulnerability Database".
The Ad Inserter for WordPress is vulnerable to Sensitive Information Exposure in versions up to, and including, 2.7.30 via the ai_ajax function. This can allow unauthenticated attackers to extract sensitive data such as post titles and slugs (including those of protected posts along with their passwords), usernames, available roles, the plugin license key provided the remote debugging option is enabled. In the default state it is disabled.π Read
via "National Vulnerability Database".
βΌ CVE-2023-37504 βΌ
π Read
via "National Vulnerability Database".
HCL Compass is vulnerable to failure to invalidate sessions. The application does not invalidate authenticated sessions when the log out functionality is called. Γ If the session identifier can be discovered, it could be replayed to the application and used to impersonate the user.π Read
via "National Vulnerability Database".
βΌ CVE-2023-36857 βΌ
π Read
via "National Vulnerability Database".
Baker Hughes Γ’β¬β Bently Nevada 3500 System TDI Firmware version 5.05 containsΓ a replay vulnerability which could allow an attacker to replay older captured packets of traffic to the device to gain access.π Read
via "National Vulnerability Database".
βΌ CVE-2023-34437 βΌ
π Read
via "National Vulnerability Database".
Baker Hughes Γ’β¬β Bently Nevada 3500 System TDI Firmware version 5.05 containsΓ a vulnerability in their password retrieval functionality which could allow an attacker to access passwords stored on the device.π Read
via "National Vulnerability Database".
βΌ CVE-2023-5638 βΌ
π Read
via "National Vulnerability Database".
The Booster for WooCommerce plugin for WordPress is vulnerable to Stored Cross-Site Scripting via 'wcj_image' shortcode in versions up to, and including, 7.1.2 due to insufficient input sanitization and output escaping on user supplied attributes. This makes it possible for authenticated attackers with contributor-level and above permissions to inject arbitrary web scripts in pages that will execute whenever a user accesses an injected page.π Read
via "National Vulnerability Database".
βΌ CVE-2023-5639 βΌ
π Read
via "National Vulnerability Database".
The Team Showcase plugin for WordPress is vulnerable to Stored Cross-Site Scripting via the plugin's 'tmfshortcode' shortcode in all versions up to, and including, 2.1 due to insufficient input sanitization and output escaping on user supplied attributes. This makes it possible for authenticated attackers with contributor-level and above permissions to inject arbitrary web scripts in pages that will execute whenever a user accesses an injected page.π Read
via "National Vulnerability Database".
βΌ CVE-2022-24404 βΌ
π Read
via "National Vulnerability Database".
Lack of cryptographic integrity check on TETRA air-interface encrypted traffic. Since a stream cipher is employed, this allows an active adversary to manipulate cleartext data in a bit-by-bit fashion.π Read
via "National Vulnerability Database".
βΌ CVE-2022-26941 βΌ
π Read
via "National Vulnerability Database".
A format string vulnerability exists in Motorola MTM5000 series firmware AT command handler for the AT+CTGL command. An attacker-controllable string is improperly handled, allowing for a write-anything-anywhere scenario. This can be leveraged to obtain arbitrary code execution inside the teds_app binary, which runs with root privileges.π Read
via "National Vulnerability Database".
βΌ CVE-2022-25333 βΌ
π Read
via "National Vulnerability Database".
The Texas Instruments OMAP L138 (secure variants) trusted execution environment (TEE) performs an RSA check implemented in mask ROM when loading a module through the SK_LOAD routine. However, only the module header authenticity is validated. An adversary can re-use any correctly signed header and append a forged payload, to be encrypted using the CEK (obtainable through CVE-2022-25332) in order to obtain arbitrary code execution in secure context. This constitutes a full break of the TEE security architecture.π Read
via "National Vulnerability Database".
βΌ CVE-2023-46227 βΌ
π Read
via "National Vulnerability Database".
Deserialization of Untrusted Data Vulnerability in Apache Software Foundation Apache InLong.This issue affects Apache InLong: from 1.4.0 through 1.8.0, the attacker can use \t to bypass.Γ Users are advised to upgrade to Apache InLong's 1.9.0 or cherry-pick [1] to solve it.[1] https://github.com/apache/inlong/pull/8814π Read
via "National Vulnerability Database".
βΌ CVE-2022-26943 βΌ
π Read
via "National Vulnerability Database".
The Motorola MTM5000 series firmwares generate TETRA authentication challenges using a PRNG using a tick count register as its sole entropy source. Low boottime entropy and limited re-seeding of the pool renders the authentication challenge vulnerable to two attacks. First, due to the limited boottime pool entropy, an adversary can derive the contents of the entropy pool by an exhaustive search of possible values, based on an observed authentication challenge. Second, an adversary can use knowledge of the entropy pool to predict authentication challenges. As such, the unit is vulnerable to CVE-2022-24400.π Read
via "National Vulnerability Database".
βΌ CVE-2022-25332 βΌ
π Read
via "National Vulnerability Database".
The AES implementation in the Texas Instruments OMAP L138 (secure variants), present in mask ROM, suffers from a timing side channel which can be exploited by an adversary with non-secure supervisor privileges by managing cache contents and collecting timing information for different ciphertext inputs. Using this side channel, the SK_LOAD secure kernel routine can be used to recover the Customer Encryption Key (CEK).π Read
via "National Vulnerability Database".
π1
βΌ CVE-2022-27813 βΌ
π Read
via "National Vulnerability Database".
Motorola MTM5000 series firmwares lack properly configured memory protection of pages shared between the OMAP-L138 ARM and DSP cores. The SoC provides two memory protection units, MPU1 and MPU2, to enforce the trust boundary between the two cores. Since both units are left unconfigured by the firmwares, an adversary with control over either core can trivially gain code execution on the other, by overwriting code located in shared RAM or DDR2 memory regions.π Read
via "National Vulnerability Database".
βΌ CVE-2022-25334 βΌ
π Read
via "National Vulnerability Database".
The Texas Instruments OMAP L138 (secure variants) trusted execution environment (TEE) lacks a bounds check on the signature size field in the SK_LOAD module loading routine, present in mask ROM. A module with a sufficiently large signature field causes a stack overflow, affecting secure kernel data pages. This can be leveraged to obtain arbitrary code execution in secure supervisor context by overwriting a SHA256 function pointer in the secure kernel data area when loading a forged, unsigned SK_LOAD module encrypted with the CEK (obtainable through CVE-2022-25332). This constitutes a full break of the TEE security architecture.π Read
via "National Vulnerability Database".
βΌ CVE-2022-24402 βΌ
π Read
via "National Vulnerability Database".
The TETRA TEA1 keystream generator implements a key register initialization function that compresses the 80-bit key to only 32 bits for usage during the keystream generation phase, which is insufficient to safeguard against exhaustive search attacks.π Read
via "National Vulnerability Database".
βΌ CVE-2022-24401 βΌ
π Read
via "National Vulnerability Database".
Adversary-induced keystream re-use on TETRA air-interface encrypted traffic using any TEA keystream generator. IV generation is based upon several TDMA frame counters, which are frequently broadcast by the infrastructure in an unauthenticated manner. An active adversary can manipulate the view of these counters in a mobile station, provoking keystream re-use. By sending crafted messages to the MS and analyzing MS responses, keystream for arbitrary frames can be recovered.π Read
via "National Vulnerability Database".
π1
βΌ CVE-2022-26942 βΌ
π Read
via "National Vulnerability Database".
The Motorola MTM5000 series firmwares lack pointer validation on arguments passed to trusted execution environment (TEE) modules. Two modules are used, one responsible for KVL key management and the other for TETRA cryptographic functionality. In both modules, an adversary with non-secure supervisor level code execution can exploit the issue in order to gain secure supervisor code execution within the TEE. This constitutes a full break of the TEE module, exposing the device key as well as any TETRA cryptographic keys and the confidential TETRA cryptographic primitives.π Read
via "National Vulnerability Database".