| CVE |
Vendors |
Products |
Updated |
CVSS v3.1 |
| A remote unprivileged attacker can intercept the communication via e.g. Man-In-The-Middle, due to the absence of Transport Layer Security (TLS) in the SICK LMS5xx. This lack of encryption in the communication channel can lead to the unauthorized disclosure of sensitive information. The attacker can exploit this weakness to eavesdrop on the communication between the LMS5xx and the Client, and potentially manipulate the data being transmitted. |
| A remote unprivileged attacker can sent multiple packages to the LMS5xx to disrupt its availability through a TCP SYN-based denial-of-service (DDoS) attack.
By exploiting this vulnerability, an attacker can flood the targeted LMS5xx with a high volume of TCP SYN requests, overwhelming its resources and causing it to become unresponsive or unavailable for legitimate users. |
| The LMS5xx uses hard-coded credentials, which potentially allow low-skilled
unauthorized remote attackers to reconfigure settings and /or disrupt the functionality of the device. |
| The LMS5xx uses weak hash generation methods, resulting in the creation of insecure hashs. If an attacker manages to retrieve the hash, it could lead to collision attacks and the potential retrieval of the password. |
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A remote unauthorized attacker may connect to the SIM1012, interact with the device and
change configuration settings. The adversary may also reset the SIM and in the worst case upload a
new firmware version to the device.
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Files or Directories Accessible to External Parties in RDT400 in SICK APU allows an
unprivileged remote attacker to download various files from the server via HTTP requests.
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Insufficient Control Flow Management in RDT400 in SICK APU allows an unprivileged remote attacker to potentially enable hidden functionality via HTTP requests.
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Improper Restriction of Excessive Authentication Attempts in RDT400 in SICK APU
allows an unprivileged remote attacker to guess the password via trial-and-error as the login attempts
are not limited.
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Modification of Assumed-Immutable Data (MAID) in RDT400 in SICK APU allows an
unprivileged remote attacker to make the site unable to load necessary strings via changing file paths
using HTTP requests.
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| Improper Restriction of Rendered UI Layers or Frames in RDT400 in SICK APU allows an unprivileged remote attacker to potentially reveal sensitive information via tricking a user into
clicking on an actionable item using an iframe.
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Cleartext Transmission of Sensitive Information in RDT400 in SICK APU allows an
unprivileged remote attacker to retrieve potentially sensitive information via intercepting network traffic
that is not encrypted.
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| Missing Authorization in RDT400 in SICK APU allows an unprivileged remote attacker to modify data via HTTP requests that no not require authentication.
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Improper Neutralization of Input During Web Page Generation (’Cross-site Scripting’) in RDT400 in SICK APU allows an unprivileged remote attacker to run arbitrary code in the clients
browser via injecting code into the website.
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Improper Access Control in SICK APU allows an unprivileged remote attacker to
download as well as upload arbitrary files via anonymous access to the FTP server.
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| Exposure of Sensitive Information to an Unauthorized Actor in the SICK ICR890-4 could allow an unauthenticated remote attacker to retrieve sensitive information about the system. |
| A deserialization vulnerability in a .NET framework class used and not properly checked by Safety Designer all versions up to and including 1.11.0 allows an attacker to craft malicious project files. Opening/importing such a malicious project file would execute arbitrary code with the privileges of the current user when opened or imported by the Safety Designer. This compromises confidentiality integrity and availability. For the attack to succeed a user must manually open a malicious project file. |
| A deserialization vulnerability in a .NET framework class used and not properly checked by Flexi Soft Designer in all versions up to and including 1.9.4 SP1 allows an attacker to craft malicious project files. Opening/importing such a malicious project file would execute arbitrary code with the privileges of the current user when opened or imported by the Flexi Soft Designer. This compromises confidentiality integrity and availability. For the attack to succeed a user must manually open a malicious project file. |
| An attacker can perform a privilege escalation through the SICK OEE if the application is installed in a directory where non authenticated or low privilege users can modify its content. |
| The vulnerability in the MSC800 in all versions before 4.15 allows for an attacker to predict the TCP initial sequence number. When the TCP sequence is predictable, an attacker can send packets that are forged to appear to come from a trusted computer. These forged packets could compromise services on the MSC800. SICK has released a new firmware version of the SICK MSC800 and recommends updating to the newest version. |
| Unauthenticated users can access sensitive web URLs through GET request, which should be restricted to maintenance users only. A malicious attacker could use this sensitive information’s to launch further attacks on the system. |
