| CVE |
Vendors |
Products |
Updated |
CVSS v3.1 |
| Anviz CrossChex Standard is vulnerable when an attacker manipulates the TDS7 PreLogin to disable
encryption, causing database credentials to be sent in plaintext and
enabling unauthorized database access. |
| Anviz CrossChex Standard
lacks source verification in the client/server channel, enabling TCP
packet injection by an attacker on the same network to alter or disrupt
application traffic. |
| NVIDIA NVFlare Dashboard contains a vulnerability in the user management and authentication system where an unauthenticated attacker may cause authorization bypass through user-controlled key. A successful exploit of this vulnerability may lead to privilege escalation, data tampering, information disclosure, code execution, and denial of service. |
| NVIDIA FLARE SDK contains a vulnerability in FOBS, where an attacker may cause deserialization of untrusted data by sending a malicious FOBS- encoded message. A successful exploit of this vulnerability might lead to code execution. |
| NVIDIA Flare SDK contains a vulnerability where an Attacker may cause an Improper Input Validation by path traversing. A successful exploit of this vulnerability may lead to information disclosure. |
| Information Disclosure Vulnerability in SAP HANA Cockpit and HANA Database Explorer |
| Anviz CX7 Firmware is vulnerable to an authenticated CSV upload which allows path traversal
to overwrite arbitrary files (e.g., /etc/shadow), enabling unauthorized
SSH access when combined with debug‑setting changes |
| Anviz CX7 Firmware is
vulnerable because the application embeds reusable certificate/key
material, enabling decryption of MQTT traffic and potential interaction
with device messaging channels at scale. |
| Anviz CX2 Lite and CX7 are vulnerable to unauthenticated access that discloses debug
configuration details (e.g., SSH/RTTY status), assisting attackers in
reconnaissance against the device. |
| Anviz CX7 Firmware is vulnerable to an unauthenticated POST to the device that captures
a photo with the front facing camera, exposing visual information about
the deployment environment. |
| Anviz CX2 Lite and CX7 administrative sessions occur over HTTP, enabling
on‑path attackers to sniff credentials and session data, which can be
used to compromise the device. |
| Anviz CX7 Firmware is vulnerable to the most recently captured test photo that can be
retrieved without authentication, revealing sensitive operational
imagery. |
| Anviz CX2 Lite and CX7 are vulnerable to unauthenticated firmware uploads. This causes crafted
archives to be accepted, enabling attackers to plant and execute code
and obtain a reverse shell. |
| NVIDIA NeMoClaw contains a vulnerability in the sandbox environment initialization component, where a remote attacker could cause improper access control by sending prompt-injected content that causes the agent to read and exfiltrate host environment variables not properly restricted during sandbox creation. A successful exploit of this vulnerability might lead to information disclosure. |
| Anviz CX2 Lite is vulnerable to an authenticated command injection via a
filename parameter that enables arbitrary command execution (e.g.,
starting telnetd), resulting in root‑level access. |
| Anviz CX2 Lite and CX7 are vulnerable to unverified update packages that can be uploaded. The
device unpacks and executes a script resulting in unauthenticated remote
code execution. |
| NVIDIA NemoClaw contains a vulnerability in the validateEndpointUrl() SSRF protection component, where an attacker could cause a server-side request forgery by supplying a crafted endpoint URL referencing the 0.0.0.0/8 address range through a blueprint configuration file or CLI flag. A successful exploit of this vulnerability may lead to information disclosure. |
| Anviz CX2 Lite and CX7 are vulnerable to unauthenticated POST requests that modify debug
settings (e.g., enabling SSH), allowing unauthorized state changes that
can facilitate later compromise. |
| In the Linux kernel, the following vulnerability has been resolved:
media: vidtv: fix pass-by-value structs causing MSAN warnings
vidtv_ts_null_write_into() and vidtv_ts_pcr_write_into() take their
argument structs by value, causing MSAN to report uninit-value warnings.
While only vidtv_ts_null_write_into() has triggered a report so far,
both functions share the same issue.
Fix by passing both structs by const pointer instead, avoiding the
stack copy of the struct along with its MSAN shadow and origin metadata.
The functions do not modify the structs, which is enforced by the const
qualifier. |
| Always-Incorrect Control Flow Implementation vulnerability in Mitsubishi Electric Corporation MELSEC iQ-F Series FX5-ENET/IP Ethernet Module FX5-ENET/IP versions 1.106 and prior and Mitsubishi Electric Corporation MELSEC iQ-F Series FX5-EIP EtherNet/IP Module FX5-EIP versions 1.000 and prior allows a remote attacker to cause a denial-of-service (DoS) condition on the products by continuously sending UDP packets to the products. A system reset of the product is required for recovery. |
