Security Vulnerabilities
- CVEs Published In 2022
There exists a path traversal vulnerability in the Android Google Search app. This is caused by the incorrect usage of uri.getLastPathSegment. A symbolic encoded string can bypass the path logic to get access to unintended directories. An attacker can manipulate paths that could lead to code execution on the device. We recommend upgrading beyond version 13.41
AeroCMS v0.0.1 is vulnerable to SQL Injection via the delete parameter.
AeroCMS v0.0.1 was discovered to contain a cross-site scripting (XSS) vulnerability via add_post.php. This vulnerability allows attackers to execute arbitrary web scripts or HTML via a crafted payload injected into the Comments text field.
AeroCMS v0.0.1 is vulnerable to ClickJacking.
Debug tool in Secomea SiteManager allows logged-in administrator to modify system state in an unintended manner.
PHP Remote File Inclusion in GitHub repository tsolucio/corebos prior to 8.0.
A vulnerability was found in ipti br.tag. It has been declared as problematic. Affected by this vulnerability is an unknown functionality. The manipulation leads to cross site scripting. The attack can be launched remotely. Upgrading to version 2.13.0 is able to address this issue. The name of the patch is 7e311be22d3a0a1b53e61cb987ba13d681d85f06. It is recommended to upgrade the affected component. The associated identifier of this vulnerability is VDB-215431.
In versions prior to 0.8.1, the linux-loader crate uses the offsets and sizes provided in the ELF headers to determine the offsets to read from. If those offsets point beyond the end of the file this could lead to Virtual Machine Monitors using the `linux-loader` crate entering an infinite loop if the ELF header of the kernel they are loading was modified in a malicious manner. This issue has been addressed in 0.8.1. The issue can be mitigated by ensuring that only trusted kernel images are loaded or by verifying that the headers do not point beyond the end of the file.
Multiple Wiesemann&Theis products of the ComServer Series are prone to an authentication bypass through IP spoofing. After a user logged in to the WBM of the Com-Server an unauthenticated attacker in the same subnet can obtain the session ID and through IP spoofing change arbitrary settings by crafting modified HTTP Get requests. This may result in a complete takeover of the device.
Passport-wsfed-saml2 is a ws-federation protocol and SAML2 tokens authentication provider for Passport. In versions prior to 4.6.3, a remote attacker may be able to bypass WSFed authentication on a website using passport-wsfed-saml2. A successful attack requires that the attacker is in possession of an arbitrary IDP signed assertion. Depending on the IDP used, fully unauthenticated attacks (e.g without access to a valid user) might also be feasible if generation of a signed message can be triggered. This issue is patched in version 4.6.3. Use of SAML2 authentication instead of WSFed is a workaround.