| CVE |
Vendors |
Products |
Updated |
CVSS v3.1 |
| A vulnerability allows unauthorized access to functionality inadequately constrained by ACLs. Attackers may exploit this to unauthenticated execute commands potentially leading to unauthorized data manipulation, access to privileged functions, or even the execution of arbitrary code. |
| An unauthenticated remote attacker can gain full access on the affected devices as they are shipped without a password by default and setting one is not enforced. |
| A unauthenticated adjacent attacker could potentially disrupt operations by switching between multiple configuration presets via CAN. |
| An unauthenticated adjacent attacker could potentially disrupt operations by switching between multiple configuration presets via Modbus (RS485). |
| An unauthenticated remote attacker could potentially disrupt operations by switching between multiple configuration presets via Modbus (TCP). |
| General Bytes Crypto Application Server (CAS) beginning with version 20201208 prior to 20220531.38 (backport) and 20220725.22 (mainline) contains an authentication bypass in the admin web interface. An unauthenticated attacker could invoke the same URL used by the product's default-installation / first-admin creation page and create a new administrative account remotely. By gaining admin privileges, the attacker can change the ATM configuration resulting in redirected funds. Public vendor advisories and multiple independent writeups describe the vulnerability as a call to the page used for initial/default installation / first administration user creation; General Bytes has not publicly published the exact endpoint/parameter name. The issue was actively exploited in the wild against cloud-hosted and standalone CAS deployments (scanning exposed CAS instances on ports 7777/443), and publicly acknowledged by the General Bytes in September 2022. |
| ESCAM QD-900 WIFI HD cameras contain an unauthenticated configuration disclosure vulnerability in the /web/cgi-bin/hi3510/backup.cgi endpoint. The endpoint allows remote download of a compressed configuration backup without requiring authentication or authorization. The exposed backup can include administrative credentials and other sensitive device settings, enabling an unauthenticated remote attacker to obtain information that may facilitate further compromise of the camera or connected network. |
| Astak CM-818T3 2.4GHz wireless security surveillance cameras contain an unauthenticated configuration disclosure vulnerability in the /web/cgi-bin/hi3510/backup.cgi endpoint. The endpoint permits remote download of a compressed configuration backup without requiring authentication or authorization. The exposed backup may include administrative credentials and other sensitive device settings, enabling an unauthenticated remote attacker to obtain information that could facilitate further compromise of the camera or connected network. |
| ACE SECURITY WIP-90113 HD cameras contain an unauthenticated configuration disclosure vulnerability in the /web/cgi-bin/hi3510/backup.cgi endpoint. The endpoint permits remote download of a compressed configuration backup without requiring authentication or authorization. The exposed backup may include administrative credentials and other sensitive device settings, enabling an unauthenticated remote attacker to obtain information that could facilitate further compromise of the camera or connected network. |
| Selea CarPlateServer 4.0.1.6 contains a remote program execution vulnerability that allows attackers to execute arbitrary Windows binaries by manipulating the NO_LIST_EXE_PATH configuration parameter. Attackers can bypass authentication through the /cps/ endpoint and modify server configuration, including changing admin passwords and executing system commands. |
| Intelbras Router RF 301K firmware version 1.1.2 contains an authentication bypass vulnerability that allows unauthenticated attackers to download router configuration files. Attackers can send a specific HTTP GET request to /cgi-bin/DownloadCfg/RouterCfm.cfg to retrieve sensitive router configuration without authentication. |
| Missing Authentication for Critical Function, Improper Access Control vulnerability in Dinosoft Business Solutions Dinosoft ERP allows Accessing Functionality Not Properly Constrained by ACLs.This issue affects Dinosoft ERP: from < 3.0.1 through 11022026.
NOTE: The vendor was contacted early about this disclosure but did not respond in any way. |
| A vulnerability was found in rowboatlabs rowboat up to 8096eaf63b5a0732edd8f812bee05b78e214ee97. It has been rated as critical. Affected by this issue is the function PUT of the file apps/rowboat/app/api/uploads/[fileId]/route.ts of the component Session Handler. The manipulation of the argument params leads to missing authentication. The attack may be launched remotely. Continious delivery with rolling releases is used by this product. Therefore, no version details of affected nor updated releases are available. It is expected that this issue will be fixed in the near future. |
| The Brightpick Internal Logic Control web interface is accessible
without requiring user authentication. An unauthorized user could
exploit this interface to manipulate robot control functions, including
initiating or halting runners, assigning jobs, clearing stations, and
deploying storage totes. |
| Nautobot Single Source of Truth (SSoT) is an app for Nautobot. Prior to version 3.10.0, an unauthenticated attacker could access this page to view the Service Now public instance name e.g. companyname.service-now.com. This is considered low-value information. This does not expose the Secret, the Secret Name, or the Secret Value for the Username/Password for Service-Now.com. An unauthenticated member would not be able to change the instance name, nor set a Secret. There is not a way to gain access to other pages Nautobot through the unauthenticated Configuration page. This issue has been patched in version 3.10.0. |
| The embedded web server on the thermostat listed version ranges contain a vulnerability that allows unauthenticated attackers, either on the local area network or from the Internet via a router with port forwarding set up, to gain direct access to the thermostat's embedded web server and reset user credentials by manipulating specific elements of the embedded web interface. |
| Akka.NET is a .NET port of the Akka project from the Scala / Java community. In all versions of Akka.Remote from v1.2.0 to v1.5.51, TLS could be enabled via our `akka.remote.dot-netty.tcp` transport and this would correctly enforce private key validation on the server-side of inbound connections. Akka.Remote, however, never asked the outbound-connecting client to present ITS certificate - therefore it's possible for untrusted parties to connect to a private key'd Akka.NET cluster and begin communicating with it without any certificate. The issue here is that for certificate-based authentication to work properly, ensuring that all members of the Akka.Remote network are secured with the same private key, Akka.Remote needed to implement mutual TLS. This was not the case before Akka.NET v1.5.52. Those who run Akka.NET inside a private network that they fully control or who were never using TLS in the first place are now affected by the bug. However, those who use TLS to secure their networks must upgrade to Akka.NET V1.5.52 or later. One patch forces "fail fast" semantics if TLS is enabled but the private key is missing or invalid. Previous versions would only check that once connection attempts occurred. The second patch, a critical fix, enforces mutual TLS (mTLS) by default, so both parties must be keyed using the same certificate. As a workaround, avoid exposing the application publicly to avoid the vulnerability having a practical impact on one's application. However, upgrading to version 1.5.52 is still recommended by the maintainers. |
| Unitree Go2, G1, H1, and B2 devices through 2025-09-20 accept any handshake secret with the unitree substring. |
| General Industrial Controls Lynx+ Gateway is missing critical authentication in the embedded web server which
could allow an attacker to send GET requests to obtain sensitive device
information. |
| The exos 9300 application can be used to configure Access Managers (e.g. 92xx, 9230 and 9290). The configuration is done in a graphical user interface on the dormakaba exos server. As soon as the save button is clicked in exos 9300, the whole configuration is sent to the selected Access Manager via SOAP. The SOAP request is sent without any prior authentication or authorization by default. Though authentication and authorization can be configured using IPsec for 92xx-K5 devices and mTLS for 92xx-K7 devices, it is not enabled by default and must therefore be activated with additional steps.
This insecure default allows an attacker with network level access to completely control the whole environment. An attacker is for example easily able to conduct the following tasks without prior authentication:
- Re-configure Access Managers (e.g. remove alarming system requirements)
- Freely re-configure the inputs and outputs
- Open all connected doors permanently
- Open all doors for a defined time interval
- Change the admin password
- and many more
Network level access can be gained due to an insufficient network segmentation as well as missing LAN firewalls. Devices with an insecure configuration have been identified to be directly exposed to the internet. |
