| CVE |
Vendors |
Products |
Updated |
CVSS v3.1 |
| The AGG Software Web Server version 4.0.40.1014 and prior is vulnerable to a path traversal attack, which may allow an attacker to read arbitrary files from the file system. |
| The AGG Software Web Server version 4.0.40.1014 and prior is vulnerable to cross-site scripting, which may allow an attacker to remotely execute arbitrary code. |
| Philips Interoperability Solution XDS versions 2.5 through 3.11 and 2018-1 through 2021-1 are vulnerable to clear text transmission of sensitive information when configured to use LDAP via TLS and where the domain controller returns LDAP referrals, which may allow an attacker to remotely read LDAP system credentials. |
| When a non-existent resource is requested, the LCDS LAquis SCADA application (version 4.3.1.1011 and prior) returns error messages which may allow reflected cross-site scripting. |
| The affected Baker Hughes Bentley Nevada products (3500 System 1 6.x, Part No. 3060/00 versions 6.98 and prior, 3500 System 1, Part No. 3071/xx & 3072/xx versions 21.1 HF1 and prior, 3500 Rack Configuration, Part No. 129133-01 versions 6.4 and prior, and 3500/22M Firmware, Part No. 288055-01 versions 5.05 and prior) utilize a weak encryption algorithm for storage and transmission of sensitive data, which may allow an attacker to more easily obtain credentials used for access. |
| An attacker can gain full access (read/write/delete) to sensitive folders due to hard-coded credentials on KUKA KR C4 control software for versions prior to 8.7 or any product running KSS. |
| Matrikon, a subsidary of Honeywell Matrikon OPC Server (all versions) is vulnerable to a condition where a low privileged user allowed to connect to the OPC server to use the functions of the IPersisFile to execute operating system processes with system-level privileges. |
| A malformed Class 3 common industrial protocol message with a cached connection can cause a denial-of-service condition in Rockwell Automation Logix Controllers, resulting in a major nonrecoverable fault. If the target device becomes unavailable, a user would have to clear the fault and redownload the user project file to bring the device back online. |
| The affected products are vulnerable of untrusted data due to deserialization without prior authorization/authentication, which may allow an attacker to remotely execute arbitrary code. |
| The affected products are vulnerable to directory traversal, which may allow an attacker to obtain arbitrary operating system files. |
| A vulnerability was found in GE Voluson S8. It has been rated as critical. This issue affects the Service Browser which itroduces hard-coded credentials. Attacking locally is a requirement. It is recommended to change the configuration settings. |
| A vulnerability classified as problematic has been found in GE Voluson S8. Affected is the file /uscgi-bin/users.cgi of the Service Browser. The manipulation leads to improper authentication and elevated access possibilities. It is possible to launch the attack on the local host. |
| LRM utilizes elevated privileges. An unauthenticated malicious actor can upload and execute code remotely at the operating system level, which can allow an attacker to change settings, configurations, software, or access sensitive data on the affected produc. An attacker could also exploit this vulnerability to access APIs not intended for general use and interact through the network. |
| LRM does not restrict the types of files that can be uploaded to the affected product. A malicious actor can upload any file type, including executable code that allows for a remote code exploit. |
| LRM contains a directory traversal vulnerability that can allow a malicious actor to upload outside the intended directory structure. |
| LRM does not implement authentication or authorization by default. A malicious actor can inject, replay, modify, and/or intercept sensitive data. |
| An attacker with weak credentials could access the TCP port via an open FTP port, allowing an attacker to read sensitive files and write to remotely executable directories. |
| The default password for the web application’s root user (the vendor’s private account) was weak and the MD5 hash was used to crack the password using a widely available open-source tool. |
| Client-side JavaScript controls may be bypassed by directly running a JS function to reboot the PLC (e.g., from the browser console) or by loading the corresponding, browser accessible PHP script |
| Client-side JavaScript controls may be bypassed to change user credentials and permissions without authentication, including a “root” user level meant only for the vendor. Web server root level access allows for changing of safety critical parameters. |
