| CVE |
Vendors |
Products |
Updated |
CVSS v3.1 |
| UNI-NMS-Lite uses hard-coded credentials that could allow an
unauthenticated attacker to gain administrative privileges to all
UNI-NMS managed devices. |
| UNI-NMS-Lite uses hard-coded credentials that could allow an
unauthenticated attacker to read, manipulate and create entries in the
managed database. |
| Default credentials were present in the web portal for Airpointer 2.4.107-2, allowing an unauthenticated malicious actor to log in via the web portal |
| The `/etc/passwd` and `/etc/shadow` files reveal hard-coded password hashes for the operating system "root" user. The credentials are shipped with the update files. There is no option for deleting or changing their passwords for an enduser. An attacker can use the credentials to log into the device. Authentication can be performed via SSH backdoor or likely via physical access (UART shell). |
| There are several scripts in the web interface that are accessible via undocumented hard-coded credentials. The scripts provide access to additional administrative/debug functionality and are likely intended for debugging during development and provides an additional attack surface. |
| Project AI is a platform designed to create AI agents. Prior to the pre-beta version, a hardcoded API key was present in the source code. This issue has been patched in the pre-beta version. |
| A vulnerability has been discovered in the firmware of Paxton Paxton10 before 4.6 SR6. The firmware file, rootfs.tar.gz, contains hard-coded credentials for the Twilio API. A remote attacker who obtains a copy of the firmware can extract these credentials. This could allow the attacker to gain unauthorized access to the associated Twilio account, leading to information disclosure, potential service disruption, and unauthorized use of the Twilio services. |
| This vulnerability exists in Digisol DG-GR6821AC Router due to hard-coded Root Access Credentials in system configuration of the device firmware. An attacker with physical access could exploit this vulnerability by extracting the firmware and analyzing the binary data to obtain the stored root access credentials.
Successful exploitation of this vulnerability could allow the attacker to gain admin access to the targeted device. |
| A vulnerability classified as critical was found in NuCom NC-WR744G 8.5.5 Build 20200530.307. This vulnerability affects unknown code of the component Console Application. The manipulation of the argument CMCCAdmin/useradmin/CUAdmin leads to hard-coded credentials. The attack can be initiated remotely. The vendor was contacted early about this disclosure but did not respond in any way. |
| Use of hard-coded credentials issue exists in ZWX-2000CSW2-HN prior to 0.3.19 and ZWX-2000CS2-HN firmware all versions. If this vulnerability is exploited, an attacker may tamper with the settings of the device by obtaining the credentials. This vulnerability is caused by an insufficient fix for CVE-2024-39838. |
| This vulnerability exists in ZKTeco WL20 due to hard-coded MQTT credentials and endpoints stored in plaintext within the device firmware. An attacker with physical access could exploit this vulnerability by extracting the firmware and analyzing the binary data to retrieve the hard-coded MQTT credentials and endpoints from the targeted device.
Successful exploitation of this vulnerability could allow the attacker to gain unauthorized access to the MQTT broker and manipulate the communications of the targeted device. |
| CWE-798 Use of Hard-coded Credentials |
| api is a module for FreePBX@, which is an open source GUI that controls and manages Asterisk© (PBX). In versions lower than 15.0.13, 16.0.2 through 16.0.14, 17.0.1 and 17.0.2, there is an identical OAuth private key used across multiple systems that installed the same FreePBX RPM or DEB package. An attacker with access to the shared OAuth private key could forge JWT tokens, bypass authentication, and potentially gain full access to both REST and GraphQL APIs. Systems with the "api" module enabled, configured and previously activated by an administrator for remote inbound connections may be affected. This issue is fixed in versions 15.0.13, 16.0.15 and 17.0.3. |
| An issue in H3C Device R365V300R004 allows a remote attacker to execute arbitrary code via the default password. NOTE: the Supplier's position is that their "product lines enforce or clearly prompt users to change any initial credentials upon first use. At most, this would be a case of misconfiguration if an administrator deliberately ignored the prompts, which is outside the scope of CVE definitions." |
| An issue in H3C Magic M Device M2V100R006 allows a remote attacker to execute arbitrary code via the default password |
| 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. |
| Insufficient hardening of the proxyuser account in the AiKaan IoT management platform, combined with the use of a shared, hardcoded SSH private key, allows remote attackers to authenticate to the cloud controller, gain interactive shell access, and pivot into other connected IoT devices. This can lead to remote code execution, information disclosure, and privilege escalation across customer environments. |
| 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. |
| An RPC service, which is part of exos 9300, is reachable on port 4000, run by the process FSMobilePhoneInterface.exe. This service is used for interprocess communication between services and the Kaba exos 9300 GUI, containing status information about the Access Managers. Interacting with the service does not require any authentication. Therefore, it is possible to send arbitrary status information about door contacts etc. without prior authentication. |
| The program libraries (DLL) and binaries used by exos 9300 contain multiple hard-coded secrets. One notable example is the function "EncryptAndDecrypt" in the library Kaba.EXOS.common.dll. This algorithm uses a simple XOR encryption technique combined with a cryptographic key (cryptoKey) to transform each character of the input string. However, it's important to note that this implementation does not provide strong encryption and should not be considered secure for sensitive data. It's more of a custom encryption approach rather than a common algorithm used in cryptographic applications. The key itself is static and based on the founder's name of the company. The functionality is for example used to encrypt the user PINs before storing them in the MSSQL database. |