| CVE |
Vendors |
Products |
Updated |
CVSS v3.1 |
| A hardcoded privileged ID within Lumisxp v15.0.x to v16.1.x allows attackers to bypass authentication and access internal pages and other sensitive information. |
| Precor touchscreen console P62, P80, and P82 contains a default SSH public key in the authorized_keys file. A remote attacker could use this key to gain root privileges. |
| Multiple hardcoded credentials have been identified, which are allowed to sign-in to the exos 9300 datapoint server running on port 1004 and 1005. This server is used for relaying status information from and to the Access Managers. This information, among other things, is used to graphically visualize open doors and alerts. However, controlling the Access Managers via this interface is also possible.
To send and receive status information, authentication is necessary. The Kaba exos 9300 application contains hard-coded credentials for four different users, which are allowed to login to the datapoint server and receive as well as send information, including commands to open arbitrary doors. |
| Use of Hard-coded Credentials vulnerability in GoodWe Technologies Co., Ltd. GW1500‑XS allows anyone in physical proximity to the device to fully access the web interface of the inverter via Wi‑Fi.This issue affects GW1500‑XS: 1.1.2.1. |
| Hardcoded credentials vulnerability in Trellix ePolicy Orchestrator (ePO) on Premise prior to 5.10 Service Pack 1 Update 2 allows an attacker with admin privileges on the ePO server to read the contents of the orion.keystore file, allowing them to access the ePO database encryption key. This was possible through using a hard coded password for the keystore. Access Control restrictions on the file mean this would not be exploitable unless the user is the system admin for the server that ePO is running on. |
| Ever Traduora 0.20.0 and below is vulnerable to Privilege Escalation due to the use of a hard-coded JWT signing key. |
| A vulnerability was found in shsuishang ShopSuite ModulithShop up to 45a99398cec3b7ad7ff9383694f0b53339f2d35a. Affected by this issue is some unknown functionality of the component RSA/OAuth2/Database. The manipulation results in hard-coded credentials. The attack can be executed remotely. The exploit has been made public and could be used. This product implements a rolling release for ongoing delivery, which means version information for affected or updated releases is unavailable. |
| All the Toshiba printers contain a shell script using the same hardcoded key to encrypt logs. An attacker can decrypt the encrypted files using the hardcoded key. This vulnerability can be executed in combination with other vulnerabilities and difficult to execute alone. So, the CVSS score for this vulnerability alone is lower than the score listed in the "Base Score" of this vulnerability. For detail on related other vulnerabilities, please ask to the below contact point.
https://www.toshibatec.com/contacts/products/
As for the affected products/models/versions, see the reference URL. |
| AiKaan Cloud Controller uses a single hardcoded SSH private key and the username `proxyuser` for remote terminal access to all managed IoT/edge devices. When an administrator initiates "Open Remote Terminal" from the AiKaan dashboard, the controller sends this same static private key to the target device. The device then uses it to establish a reverse SSH tunnel to a remote access server, enabling browser-based SSH access for the administrator. Because the same `proxyuser` account and SSH key are reused across all customer environments: - An attacker who obtains the key (e.g., by intercepting it in transit, extracting it from the remote access server, or from a compromised admin account) can impersonate any managed device. - They can establish unauthorized reverse SSH tunnels and interact with devices without the owner's consent. This is a design flaw in the authentication model: compromise of a single key compromises the trust boundary between the controller and devices. |
| All the Toshiba printers contain a shell script using the same hardcoded key to encrypt logs. An attacker can decrypt the encrypted files using the hardcoded key. This vulnerability can be executed in combination with other vulnerabilities and difficult to execute alone. So, the CVSS score for this vulnerability alone is lower than the score listed in the "Base Score" of this vulnerability. For detail on related other vulnerabilities, please ask to the below contact point.
https://www.toshibatec.com/contacts/products/
As for the affected products/models/versions, see the reference URL. |
| all the Toshiba printers have programs containing a hardcoded key used to encrypt files. An attacker can decrypt the encrypted files using the hardcoded key. Insecure algorithm is used for the encryption. This vulnerability can be executed in combination with other vulnerabilities and difficult to execute alone. So, the CVSS score for this vulnerability alone is lower than the score listed in the "Base Score" of this vulnerability. For detail on related other vulnerabilities, please ask to the below contact point.
https://www.toshibatec.com/contacts/products/
As for the affected products/models/versions, see the reference URL. |
| In Eaton X303 3.5.16 - X303 3.5.17 Build 712, an attacker with network access to a XC-303 PLC can login as root over SSH. The root password is hardcoded in the firmware. NOTE: This vulnerability appears in versions that are no longer supported by Eaton. |
| 'OfferBox' App for Android versions 2.0.0 to 2.3.17 and 'OfferBox' App for iOS versions 2.1.7 to 2.6.14 use a hard-coded secret key for JWT. Secret key for JWT may be retrieved if the application binary is reverse-engineered. |
| Denver SHC-150 Smart Wifi Camera contains a hardcoded telnet credential vulnerability that allows unauthenticated attackers to access a Linux shell. Attackers can connect to port 23 using the default credential to execute arbitrary commands on the camera's operating system. |
| An Use of Hard-coded Credentials vulnerability has been identified in Moxa’s network security appliances and routers. The system employs a hard-coded secret key to sign JSON Web Tokens (JWT) used for authentication. This insecure implementation allows an unauthenticated attacker to forge valid tokens, thereby bypassing authentication controls and impersonating any user. Exploitation of this vulnerability can result in complete system compromise, enabling unauthorized access, data theft, and full administrative control over the affected device. While successful exploitation can severely impact the confidentiality, integrity, and availability of the affected device itself, there is no loss of confidentiality or integrity within any subsequent systems. |
| NixOS's Onlyoffice is a software suite that offers online and offline tools for document editing, collaboration, and management. In versions from 22.11 to before 25.05 and versions before Unstable 25.11, a hard-coded secret was used in the NixOS module for the OnlyOffice document server to protect its file cache. An attacker with knowledge of an existing revision ID could use this secret to obtain a document. In practice, an arbitrary revision ID should be hard to obtain. The primary impact is likely the access to known documents from users with expired access. This issue was resolved in NixOS unstable version 25.11 and version 25.05. |
| Hard-coded credentials were included as part of the application binary.
These credentials served as part of the application authentication flow
and communication with the mobile application. An attacker could access
unauthorized information. |
| Use of Hard-coded Credentials vulnerability in GE Vernova EnerVista UR Setup allows Privilege Escalation. The local user database is encrypted using an hardcoded password retrievable by an attacker analyzing the application code. |
| SQL Anywhere Monitor (Non-GUI) baked credentials into the code,exposing the resources or functionality to unintended users and providing attackers with the possibility of arbitrary code execution.This could cause high impact on confidentiality integrity and availability of the system. |
| In KDE libksieve before 23.03.80, kmanagesieve/session.cpp places a cleartext password in server logs because a username variable is accidentally given a password value. |
