| CVE |
Vendors |
Products |
Updated |
CVSS v3.1 |
| Lua apps can be deployed, removed, started, reloaded or stopped without authorization via
AppManager. This allows an attacker to remove legitimate apps creating a DoS attack, read and write
files or load apps that use all features of the product available to a customer. |
| Unauthenticated CROWN APIs allow access to critical functions. This leads to the accessibility of large parts of the web application without authentication. |
| A vulnerability in the MSC800 allows an unauthenticated attacker to modify the product’s IP
address over Sopas ET.
This can lead to Denial of Service.
Users are recommended to upgrade both
MSC800 and MSC800 LFT to version V4.26 and S2.93.20 respectively which fixes this issue. |
| The product is vulnerable to pass-the-hash attacks in combination with hardcoded credentials of hidden user levels. This means that an attacker can log in with the hidden user levels and gain
full access to the device. |
| Due to missing input validation during one step of the firmware update process, the product
is vulnerable to remote code execution. With network access and the user level ”Service”, an attacker
can execute arbitrary system commands in the root user’s contexts. |
| A vulnerability in the .sdd file allows an attacker to read default passwords stored in plain text within the code. By exploiting these plaintext credentials, an attacker can log into affected SICK products as an “Authorized Client” if the customer has not changed the default password. |
| Since the firmware update is not validated, an attacker can install modified firmware on the
device. This has a high impact on the availabilty, integrity and confidentiality up to the complete compromise of the device. |
| An attacker may exploit the use of weak CBC-based cipher suites in the device’s SSH service to potentially observe or manipulate parts of the encrypted SSH communication, if they are able to intercept or interact with the network traffic. |
| An attacker may exploit the use of outdated and weak MAC algorithms in the device’s SSH service to potentially compromise the integrity of the SSH session, allowing manipulation of transmitted data if the attacker can interact with the network traffic. |
| An attacker that gains SSH access to an unprivileged account may be able to disrupt services (including SSH), causing persistent loss of availability. |
| The web application is vulnerable to clickjacking attacks. The site can be embedded into another frame, allowing an attacker to trick a user into clicking on something different from what the user perceives. This could potentially reveal confidential information or allow others to take control of their computer while clicking on seemingly innocuous objects. |
| The HttpOnlyflag of the session cookie \"@@\" is set to false. Since this flag helps preventing access to cookies via client-side scripts, setting the flag to false can lead to a higher possibility of Cross-Side-Scripting attacks which target the stored cookies. |
| The product does not implement sufficient measures to prevent multiple failed authentication attempts within a short time frame, making it susceptible to brute-force attacks. |
| Due to missing authorization of an API endpoint, unauthorized users can send HTTP GET
requests to gather sensitive information. An attacker could also send HTTP POST requests to modify
the log files’ root path as well as the TCP ports the service is running on, leading to a Denial of Service
attack. |
| Files in the source code contain login credentials for the admin user and the property configuration password, allowing an attacker to get full access to the application. |
| All communication with the REST API is unencrypted (HTTP), allowing an attacker to intercept traffic between an actor and the webserver. This leads to the possibility of information gathering and downloading media files. |
| A remote unauthorized attacker may gather sensitive information of the application, due to missing authorization of configuration settings of the product. |
| The web application is susceptible to cross-site-scripting attacks. An attacker who can create new dashboard widgets can inject malicious JavaScript code into the Transform Function which will be executed when the widget receives data from its data source. |
| For failed login attempts, the application returns different error messages depending on whether the login failed due to an incorrect password or a non-existing username. This allows an attacker to guess usernames until they find an existing one. |
| The application is vulnerable to Server-Side Request Forgery (SSRF). An endpoint can be used to send server internal requests to other ports. |
