| CVE |
Vendors |
Products |
Updated |
CVSS v3.1 |
| Multiple out-of-bounds read vulnerabilities were identified in a system component responsible for handling certain data buffers. Due to insufficient validation of maximum buffer size values, the process may attempt to read beyond the intended memory region. Under specific conditions, this can result in a crash of the affected process and a potential denial-of-service of the compromised process. |
| Arbitrary file deletion vulnerability have been identified in a system function of mobility conductors running AOS-8 operating system. Successful exploitation of this vulnerability could allow an unauthenticated remote malicious actor to delete arbitrary files within the affected system and potentially result in denial-of-service conditions on affected devices. |
| A platform-level denial-of-service (DoS) vulnerability exists in ArubaOS-CX software. Successful exploitation of this vulnerability could allow an attacker with administrative access to execute specific code that renders the switch non-bootable and effectively non-functional. |
| A broken access control (BAC) vulnerability in the web-based management interface could allow an authenticated remote attacker with low privileges to view sensitive information. Successful exploitation of this vulnerability could enable the attacker to disclose sensitive data. |
| Arbitrary file deletion vulnerabilities have been identified in the command-line interface of an AOS-8 Controller/Mobility Conductor. Successful exploitation of these vulnerabilities could allow an authenticated remote malicious actor to delete arbitrary files within the affected system. |
| Arbitrary file deletion vulnerabilities have been identified in the command-line interface of an AOS-8 Controller/Mobility Conductor. Successful exploitation of these vulnerabilities could allow an authenticated remote malicious actor to delete arbitrary files within the affected system. |
| Arbitrary file deletion vulnerabilities have been identified in the command-line interface of an AOS-8 Controller/Mobility Conductor. Successful exploitation of these vulnerabilities could allow an authenticated remote malicious actor to delete arbitrary files within the affected system. |
| An authenticated command injection vulnerability exists in the command line interface binary of AOS-10 GW and AOS-8 Controllers/Mobility Conductor operating system. Exploitation of this vulnerability requires physical access to the hardware controllers. A successful attack could allow an authenticated malicious actor with physical access to execute arbitrary commands as a privileged user on the underlying operating system. |
| Arbitrary file download vulnerabilities exist in the CLI binary of AOS-10 GW and AOS-8 Controller/Mobility Conductor operating systems. Successful exploitation could allow an authenticated malicious actor to download arbitrary files through carefully constructed exploits. |
| Arbitrary file download vulnerabilities exist in the CLI binary of AOS-10 GW and AOS-8 Controller/Mobility Conductor operating systems. Successful exploitation could allow an authenticated malicious actor to download arbitrary files through carefully constructed exploits. |
| Arbitrary file download vulnerabilities exist in the CLI binary of AOS-10 GW and AOS-8 Controller/Mobility Conductor operating systems. Successful exploitation could allow an authenticated malicious actor to download arbitrary files through carefully constructed exploits. |
| An arbitrary file download vulnerability exists in the web-based management interface of AOS-10 GW and AOS-8 Controller/Mobility Conductor operating systems. Successful exploitation could allow an Authenticated malicious actor to download arbitrary files through carefully constructed exploits. |
| Arbitrary file download vulnerabilities exist in a low-level interface library in AOS-10 GW and AOS-8 Controller/Mobility Conductor operating systems. Successful exploitation could allow an authenticated malicious actor to download arbitrary files through carefully constructed exploits. |
| Arbitrary file download vulnerabilities exist in a low-level interface library in AOS-10 GW and AOS-8 Controller/Mobility Conductor operating systems. Successful exploitation could allow an authenticated malicious actor to download arbitrary files through carefully constructed exploits. |
| A vulnerability in an AOS firmware binary allows an authenticated malicious actor to permanently delete necessary boot information. Successful exploitation may render the system unbootable, resulting in a Denial of Service that can only be resolved by replacing the affected hardware. |
| A vulnerability in the parsing of ethernet frames in AOS-8 Instant and AOS 10 could allow an unauthenticated remote attacker to conduct a denial of service attack. Successful exploitation could allow an attacker to potentially disrupt network services and require manual intervention to restore functionality. |
| A Secure Boot Bypass Vulnerability exists in affected Access Points that allows an adversary to bypass the hardware root of trust verification in place to ensure only vendor-signed firmware can execute on the device. An adversary can exploit this vulnerability to run modified or custom firmware on affected Access Points. |
| The Diffie-Hellman Key Agreement Protocol allows remote attackers (from the client side) to send arbitrary numbers that are actually not public keys, and trigger expensive server-side DHE modular-exponentiation calculations, aka a D(HE)at or D(HE)ater attack. The client needs very little CPU resources and network bandwidth. The attack may be more disruptive in cases where a client can require a server to select its largest supported key size. The basic attack scenario is that the client must claim that it can only communicate with DHE, and the server must be configured to allow DHE. |
| An authenticated remote code execution vulnerability
exists in the AOS-CX Network Analytics Engine. Successful
exploitation of this vulnerability results in the ability to
execute arbitrary code as a privileged user on the underlying
operating system, leading to a complete compromise of the
switch running AOS-CX.
|
| Multiple memory corruption flaws are present in ArubaOS which could allow an unauthenticated user to crash ArubaOS processes. With sufficient time and effort, it is possible these vulnerabilities could lead to the ability to execute arbitrary code - remote code execution has not yet been confirmed. |
