EUVD-2025-16123

Malicious code in bioql PyPI...

EUVD-2025-16151

Malicious code in bioql PyPI...

EUVD-2025-16142

Malicious code in bioql PyPI...

EUVD-2025-16143

Malicious code in bioql PyPI...

EUVD-2025-16122

Malicious code in bioql PyPI...

EUVD-2025-16124

Malicious code in bioql PyPI...

EUVD-2025-16126

Malicious code in bioql PyPI...

EUVD-2025-16125

Malicious code in bioql PyPI...

EUVD-2025-16131

Malicious code in bioql PyPI...

EUVD-2025-16130

Malicious code in bioql PyPI...

EUVD-2024-17069

Malicious code in bioql PyPI...

EUVD-2025-16121

Malicious code in bioql PyPI...

The vulnerability of the device management platform for systems related to heating, ventilation, and air conditioning, lighting, and energy consumption within the Niagara Framework, as well as the Niagara Enterprise Security tools for access control and security, stems from the ability to disclose information through a query string, allowing attackers to compromise the confidentiality of protected information.

The vulnerability of the device management platform for heating, ventilation, and air conditioning systems, lighting, and energy consumption, as well as the Niagara Framework and its access control and security measures, is related to the disclosure of information through query strings. Exploitin...

The vulnerability of the device management platform for systems related to heating, ventilation, and air conditioning, lighting, and energy consumption within the Niagara Framework, as well as the Niagara Enterprise Security tools for access control and security, stems from the absence of necessary encryption steps. This allows attackers to compromise the confidentiality, integrity, and accessibility of the protected information.

The vulnerability of the device management platform for systems for heating, ventilation, and air conditioning, lighting, and energy consumption, as well as the Niagara Framework and the access control and security measures, is related to the absence of the necessary encryption step. Exploiting...

The vulnerability of the device management platform for heating, ventilation, and air conditioning systems, lighting, and energy consumption within the Niagara Framework, along with the Niagara Enterprise Security tools for access control and security, stems from incorrect processing of alternative data streams. This allows attackers to compromise the confidentiality, integrity, and accessibility of protected information.

The vulnerability of the device management platform for heating, ventilation, and air conditioning systems, lighting, and energy consumption in the Niagara Framework, along with the access control and security measures, is related to incorrect handling of alternative data streams. Exploiting this...

The vulnerability of the device management platform for heating, ventilation, and air conditioning systems, lighting, and energy consumption within the Niagara Framework, along with the access control and security measures of Niagara Enterprise Security, arises from the improper assignment of permissions to critical resources. This allows attackers to compromise the confidentiality, integrity, and accessibility of protected information.

The vulnerability of the device management platform for heating, ventilation, and air conditioning systems, lighting, and energy consumption control within the Niagara Framework, along with the access control and security measures of Niagara Enterprise Security, is related to the incorrect...

The vulnerability of the device management platform for systems involving heating, ventilation, and air conditioning, lighting, and energy consumption within the Niagara Framework, along with the Niagara Enterprise Security tools for access control and security, stems from insufficient calculation of password hashes. This allows attackers to gain access to the device.

The vulnerability of the device management platform for systems involving heating, ventilation, and air conditioning, lighting, and energy consumption, as well as the Niagara Framework and the access control and security measures, is related to insufficient calculation of password hashes...

The vulnerability of the device management platform for heating, ventilation, and air conditioning systems, lighting, and energy consumption control within the Niagara Framework, along with the Niagara Enterprise Security tools for access control and security, can be exploited due to improper handling of argument separators in commands. This allows attackers to trigger service failures.

The vulnerability of the device management platform for heating, ventilation, and air conditioning systems, lighting, and energy consumption control within the Niagara Framework, along with the access control and security measures, is related to improper elimination of argument separators in the...

The vulnerability of the device management platform for systems involving heating, ventilation, and air conditioning, lighting, and energy consumption within the Niagara Framework, along with the Niagara Enterprise Security tools for access control and security, stems from incorrect assignment of permissions to critical resources. This allows attackers to gain unauthorized access to protected information, enhance their privileges, and execute arbitrary code.

The vulnerability of the device management platform for heating, ventilation, and air conditioning systems, lighting, and energy consumption control within the Niagara Framework, along with the access control and security measures, is related to the lack of proper protection for the...

Critical Flaws in Niagara Framework Threaten Smart Buildings and Industrial Systems Worldwide

Cybersecurity researchers have discovered over a dozen security vulnerabilities impacting Tridium's Niagara Framework that could allow an attacker on the same network to compromise the system under certain circumstances. "These vulnerabilities are fully exploitable if a Niagara system is...